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MCUXpresso_MKS22FN256xxx12/devices/MKS22F12/MKS22F12.xml

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<?xml version="1.0" encoding="UTF-8"?>
<device schemaVersion="1.1" xmlns:xs="http://www.w3.org/2001/XMLSchema-instance" xs:noNamespaceSchemaLocation="CMSIS-SVD_Schema_1_1.xsd">
<vendor>NXP Semiconductors</vendor>
<vendorID>NXP</vendorID>
<name>MKS22F12</name>
<series>Kinetis_K</series>
<version>1.6</version>
<description>MKS22F12 NXP Microcontroller</description>
<licenseText>The Clear BSD License\n Copyright 2016-2017 NXP\n All rights reserved.\n Redistribution and use in source and binary forms, with or without\n modification, are permitted (subject to the limitations in the\n disclaimer below) provided that the following conditions are met:\n * Redistributions of source code must retain the above copyright\n notice, this list of conditions and the following disclaimer.\n * Redistributions in binary form must reproduce the above copyright\n notice, this list of conditions and the following disclaimer in the\n documentation and/or other materials provided with the distribution.\n * Neither the name of the copyright holder nor the names of its\n contributors may be used to endorse or promote products derived from\n this software without specific prior written permission.\n NO EXPRESS OR IMPLIED LICENSES TO ANY PARTY&apos;S PATENT RIGHTS ARE\n GRANTED BY THIS LICENSE. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT\n HOLDERS AND CONTRIBUTORS &quot;AS IS&quot; AND ANY EXPRESS OR IMPLIED\n WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF\n MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE\n DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE\n LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR\n CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF\n SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR\n BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,\n WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE\n OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN\n IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.</licenseText>
<cpu>
<name>CM4</name>
<revision>r0p1</revision>
<endian>little</endian>
<mpuPresent>false</mpuPresent>
<fpuPresent>true</fpuPresent>
<vtorPresent>true</vtorPresent>
<nvicPrioBits>4</nvicPrioBits>
<vendorSystickConfig>false</vendorSystickConfig>
</cpu>
<addressUnitBits>8</addressUnitBits>
<width>32</width>
<peripherals>
<peripheral>
<name>FTFA_FlashConfig</name>
<description>Flash configuration field</description>
<prependToName>NV_</prependToName>
<baseAddress>0x400</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xE</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>BACKKEY3</name>
<description>Backdoor Comparison Key 3.</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>KEY</name>
<description>Backdoor Comparison Key.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>BACKKEY2</name>
<description>Backdoor Comparison Key 2.</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>KEY</name>
<description>Backdoor Comparison Key.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>BACKKEY1</name>
<description>Backdoor Comparison Key 1.</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>KEY</name>
<description>Backdoor Comparison Key.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>BACKKEY0</name>
<description>Backdoor Comparison Key 0.</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>KEY</name>
<description>Backdoor Comparison Key.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>BACKKEY7</name>
<description>Backdoor Comparison Key 7.</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>KEY</name>
<description>Backdoor Comparison Key.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>BACKKEY6</name>
<description>Backdoor Comparison Key 6.</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>KEY</name>
<description>Backdoor Comparison Key.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>BACKKEY5</name>
<description>Backdoor Comparison Key 5.</description>
<addressOffset>0x6</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>KEY</name>
<description>Backdoor Comparison Key.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>BACKKEY4</name>
<description>Backdoor Comparison Key 4.</description>
<addressOffset>0x7</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>KEY</name>
<description>Backdoor Comparison Key.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>FPROT3</name>
<description>Non-volatile P-Flash Protection 1 - Low Register</description>
<addressOffset>0x8</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PROT</name>
<description>P-Flash Region Protect</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>FPROT2</name>
<description>Non-volatile P-Flash Protection 1 - High Register</description>
<addressOffset>0x9</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PROT</name>
<description>P-Flash Region Protect</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>FPROT1</name>
<description>Non-volatile P-Flash Protection 0 - Low Register</description>
<addressOffset>0xA</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PROT</name>
<description>P-Flash Region Protect</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>FPROT0</name>
<description>Non-volatile P-Flash Protection 0 - High Register</description>
<addressOffset>0xB</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PROT</name>
<description>P-Flash Region Protect</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>FSEC</name>
<description>Non-volatile Flash Security Register</description>
<addressOffset>0xC</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SEC</name>
<description>Flash Security</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>10</name>
<description>MCU security status is unsecure</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCU security status is secure</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSLACC</name>
<description>Freescale Failure Analysis Access Code</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>10</name>
<description>Freescale factory access denied</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Freescale factory access granted</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MEEN</name>
<description>no description available</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>10</name>
<description>Mass erase is disabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Mass erase is enabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>KEYEN</name>
<description>Backdoor Key Security Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>10</name>
<description>Backdoor key access enabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Backdoor key access disabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FOPT</name>
<description>Non-volatile Flash Option Register</description>
<addressOffset>0xD</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LPBOOT</name>
<description>no description available</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Low-power boot</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Normal boot</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EZPORT_DIS</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>EzPort operation is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>EzPort operation is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NMI_DIS</name>
<description>no description available</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>NMI interrupts are always blocked</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>NMI_b pin/interrupts reset default to enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FAST_INIT</name>
<description>no description available</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Slower initialization</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Fast Initialization</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>DMA</name>
<description>Enhanced direct memory access controller</description>
<prependToName>DMA_</prependToName>
<baseAddress>0x40008000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x1200</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>DMA0</name>
<value>0</value>
</interrupt>
<interrupt>
<name>DMA1</name>
<value>1</value>
</interrupt>
<interrupt>
<name>DMA2</name>
<value>2</value>
</interrupt>
<interrupt>
<name>DMA3</name>
<value>3</value>
</interrupt>
<interrupt>
<name>DMA4</name>
<value>4</value>
</interrupt>
<interrupt>
<name>DMA5</name>
<value>5</value>
</interrupt>
<interrupt>
<name>DMA6</name>
<value>6</value>
</interrupt>
<interrupt>
<name>DMA7</name>
<value>7</value>
</interrupt>
<interrupt>
<name>DMA8</name>
<value>8</value>
</interrupt>
<interrupt>
<name>DMA9</name>
<value>9</value>
</interrupt>
<interrupt>
<name>DMA10</name>
<value>10</value>
</interrupt>
<interrupt>
<name>DMA11</name>
<value>11</value>
</interrupt>
<interrupt>
<name>DMA12</name>
<value>12</value>
</interrupt>
<interrupt>
<name>DMA13</name>
<value>13</value>
</interrupt>
<interrupt>
<name>DMA14</name>
<value>14</value>
</interrupt>
<interrupt>
<name>DMA15</name>
<value>15</value>
</interrupt>
<interrupt>
<name>DMA_Error</name>
<value>16</value>
</interrupt>
<registers>
<register>
<name>CR</name>
<description>Control Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EDBG</name>
<description>Enable Debug</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>When in debug mode, the DMA continues to operate.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>When in debug mode, the DMA stalls the start of a new channel. Executing channels are allowed to complete. Channel execution resumes when the system exits debug mode or the EDBG bit is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERCA</name>
<description>Enable Round Robin Channel Arbitration</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fixed priority arbitration is used for channel selection .</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Round robin arbitration is used for channel selection .</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HOE</name>
<description>Halt On Error</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Any error causes the HALT bit to set. Subsequently, all service requests are ignored until the HALT bit is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HALT</name>
<description>Halt DMA Operations</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Stall the start of any new channels. Executing channels are allowed to complete. Channel execution resumes when this bit is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLM</name>
<description>Continuous Link Mode</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A minor loop channel link made to itself goes through channel arbitration before being activated again.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A minor loop channel link made to itself does not go through channel arbitration before being activated again. Upon minor loop completion, the channel activates again if that channel has a minor loop channel link enabled and the link channel is itself. This effectively applies the minor loop offsets and restarts the next minor loop.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EMLM</name>
<description>Enable Minor Loop Mapping</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disabled. TCDn.word2 is defined as a 32-bit NBYTES field.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled. TCDn.word2 is redefined to include individual enable fields, an offset field, and the NBYTES field. The individual enable fields allow the minor loop offset to be applied to the source address, the destination address, or both. The NBYTES field is reduced when either offset is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ECX</name>
<description>Error Cancel Transfer</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Cancel the remaining data transfer in the same fashion as the CX bit. Stop the executing channel and force the minor loop to finish. The cancel takes effect after the last write of the current read/write sequence. The ECX bit clears itself after the cancel is honored. In addition to cancelling the transfer, ECX treats the cancel as an error condition, thus updating the Error Status register (DMAx_ES) and generating an optional error interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CX</name>
<description>Cancel Transfer</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Cancel the remaining data transfer. Stop the executing channel and force the minor loop to finish. The cancel takes effect after the last write of the current read/write sequence. The CX bit clears itself after the cancel has been honored. This cancel retires the channel normally as if the minor loop was completed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ES</name>
<description>Error Status Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DBE</name>
<description>Destination Bus Error</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No destination bus error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a bus error on a destination write</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SBE</name>
<description>Source Bus Error</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No source bus error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a bus error on a source read</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SGE</name>
<description>Scatter/Gather Configuration Error</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No scatter/gather configuration error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a configuration error detected in the TCDn_DLASTSGA field. This field is checked at the beginning of a scatter/gather operation after major loop completion if TCDn_CSR[ESG] is enabled. TCDn_DLASTSGA is not on a 32 byte boundary.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NCE</name>
<description>NBYTES/CITER Configuration Error</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No NBYTES/CITER configuration error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a configuration error detected in the TCDn_NBYTES or TCDn_CITER fields. TCDn_NBYTES is not a multiple of TCDn_ATTR[SSIZE] and TCDn_ATTR[DSIZE], or TCDn_CITER[CITER] is equal to zero, or TCDn_CITER[ELINK] is not equal to TCDn_BITER[ELINK]</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOE</name>
<description>Destination Offset Error</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No destination offset configuration error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a configuration error detected in the TCDn_DOFF field. TCDn_DOFF is inconsistent with TCDn_ATTR[DSIZE].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DAE</name>
<description>Destination Address Error</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No destination address configuration error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a configuration error detected in the TCDn_DADDR field. TCDn_DADDR is inconsistent with TCDn_ATTR[DSIZE].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SOE</name>
<description>Source Offset Error</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No source offset configuration error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a configuration error detected in the TCDn_SOFF field. TCDn_SOFF is inconsistent with TCDn_ATTR[SSIZE].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SAE</name>
<description>Source Address Error</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No source address configuration error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a configuration error detected in the TCDn_SADDR field. TCDn_SADDR is inconsistent with TCDn_ATTR[SSIZE].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERRCHN</name>
<description>Error Channel Number or Canceled Channel Number</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>CPE</name>
<description>Channel Priority Error</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel priority error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded error was a configuration error in the channel priorities . Channel priorities are not unique.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ECX</name>
<description>Transfer Canceled</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No canceled transfers</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The last recorded entry was a canceled transfer by the error cancel transfer input</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VLD</name>
<description>Logical OR of all ERR status bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No ERR bits are set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one ERR bit is set indicating a valid error exists that has not been cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ERQ</name>
<description>Enable Request Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ERQ0</name>
<description>Enable DMA Request 0</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ1</name>
<description>Enable DMA Request 1</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ2</name>
<description>Enable DMA Request 2</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ3</name>
<description>Enable DMA Request 3</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ4</name>
<description>Enable DMA Request 4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ5</name>
<description>Enable DMA Request 5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ6</name>
<description>Enable DMA Request 6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ7</name>
<description>Enable DMA Request 7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ8</name>
<description>Enable DMA Request 8</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ9</name>
<description>Enable DMA Request 9</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ10</name>
<description>Enable DMA Request 10</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ11</name>
<description>Enable DMA Request 11</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ12</name>
<description>Enable DMA Request 12</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ13</name>
<description>Enable DMA Request 13</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ14</name>
<description>Enable DMA Request 14</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERQ15</name>
<description>Enable DMA Request 15</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DMA request signal for the corresponding channel is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DMA request signal for the corresponding channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>EEI</name>
<description>Enable Error Interrupt Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EEI0</name>
<description>Enable Error Interrupt 0</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI1</name>
<description>Enable Error Interrupt 1</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI2</name>
<description>Enable Error Interrupt 2</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI3</name>
<description>Enable Error Interrupt 3</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI4</name>
<description>Enable Error Interrupt 4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI5</name>
<description>Enable Error Interrupt 5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI6</name>
<description>Enable Error Interrupt 6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI7</name>
<description>Enable Error Interrupt 7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI8</name>
<description>Enable Error Interrupt 8</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI9</name>
<description>Enable Error Interrupt 9</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI10</name>
<description>Enable Error Interrupt 10</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI11</name>
<description>Enable Error Interrupt 11</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI12</name>
<description>Enable Error Interrupt 12</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI13</name>
<description>Enable Error Interrupt 13</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI14</name>
<description>Enable Error Interrupt 14</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EEI15</name>
<description>Enable Error Interrupt 15</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The error signal for corresponding channel does not generate an error interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of the error signal for corresponding channel generates an error interrupt request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CEEI</name>
<description>Clear Enable Error Interrupt Register</description>
<addressOffset>0x18</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CEEI</name>
<description>Clear Enable Error Interrupt</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
</field>
<field>
<name>CAEE</name>
<description>Clear All Enable Error Interrupts</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clear only the EEI bit specified in the CEEI field</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear all bits in EEI</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOP</name>
<description>No Op enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>No operation, ignore the other bits in this register</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SEEI</name>
<description>Set Enable Error Interrupt Register</description>
<addressOffset>0x19</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SEEI</name>
<description>Set Enable Error Interrupt</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
</field>
<field>
<name>SAEE</name>
<description>Sets All Enable Error Interrupts</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Set only the EEI bit specified in the SEEI field.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sets all bits in EEI</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOP</name>
<description>No Op enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>No operation, ignore the other bits in this register</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CERQ</name>
<description>Clear Enable Request Register</description>
<addressOffset>0x1A</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CERQ</name>
<description>Clear Enable Request</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
</field>
<field>
<name>CAER</name>
<description>Clear All Enable Requests</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clear only the ERQ bit specified in the CERQ field</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear all bits in ERQ</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOP</name>
<description>No Op enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>No operation, ignore the other bits in this register</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SERQ</name>
<description>Set Enable Request Register</description>
<addressOffset>0x1B</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SERQ</name>
<description>Set Enable Request</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
</field>
<field>
<name>SAER</name>
<description>Set All Enable Requests</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Set only the ERQ bit specified in the SERQ field</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Set all bits in ERQ</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOP</name>
<description>No Op enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>No operation, ignore the other bits in this register</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CDNE</name>
<description>Clear DONE Status Bit Register</description>
<addressOffset>0x1C</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CDNE</name>
<description>Clear DONE Bit</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
</field>
<field>
<name>CADN</name>
<description>Clears All DONE Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clears only the TCDn_CSR[DONE] bit specified in the CDNE field</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clears all bits in TCDn_CSR[DONE]</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOP</name>
<description>No Op enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>No operation, ignore the other bits in this register</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SSRT</name>
<description>Set START Bit Register</description>
<addressOffset>0x1D</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SSRT</name>
<description>Set START Bit</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
</field>
<field>
<name>SAST</name>
<description>Set All START Bits (activates all channels)</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Set only the TCDn_CSR[START] bit specified in the SSRT field</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Set all bits in TCDn_CSR[START]</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOP</name>
<description>No Op enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>No operation, ignore the other bits in this register</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CERR</name>
<description>Clear Error Register</description>
<addressOffset>0x1E</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CERR</name>
<description>Clear Error Indicator</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
</field>
<field>
<name>CAEI</name>
<description>Clear All Error Indicators</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clear only the ERR bit specified in the CERR field</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear all bits in ERR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOP</name>
<description>No Op enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>No operation, ignore the other bits in this register</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CINT</name>
<description>Clear Interrupt Request Register</description>
<addressOffset>0x1F</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CINT</name>
<description>Clear Interrupt Request</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
</field>
<field>
<name>CAIR</name>
<description>Clear All Interrupt Requests</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clear only the INT bit specified in the CINT field</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear all bits in INT</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOP</name>
<description>No Op enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>No operation, ignore the other bits in this register</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>INT</name>
<description>Interrupt Request Register</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>INT0</name>
<description>Interrupt Request 0</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT1</name>
<description>Interrupt Request 1</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT2</name>
<description>Interrupt Request 2</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT3</name>
<description>Interrupt Request 3</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT4</name>
<description>Interrupt Request 4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT5</name>
<description>Interrupt Request 5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT6</name>
<description>Interrupt Request 6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT7</name>
<description>Interrupt Request 7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT8</name>
<description>Interrupt Request 8</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT9</name>
<description>Interrupt Request 9</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT10</name>
<description>Interrupt Request 10</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT11</name>
<description>Interrupt Request 11</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT12</name>
<description>Interrupt Request 12</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT13</name>
<description>Interrupt Request 13</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT14</name>
<description>Interrupt Request 14</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INT15</name>
<description>Interrupt Request 15</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt request for corresponding channel is cleared</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt request for corresponding channel is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ERR</name>
<description>Error Register</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ERR0</name>
<description>Error In Channel 0</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR1</name>
<description>Error In Channel 1</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR2</name>
<description>Error In Channel 2</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR3</name>
<description>Error In Channel 3</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR4</name>
<description>Error In Channel 4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR5</name>
<description>Error In Channel 5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR6</name>
<description>Error In Channel 6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR7</name>
<description>Error In Channel 7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR8</name>
<description>Error In Channel 8</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR9</name>
<description>Error In Channel 9</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR10</name>
<description>Error In Channel 10</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR11</name>
<description>Error In Channel 11</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR12</name>
<description>Error In Channel 12</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR13</name>
<description>Error In Channel 13</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR14</name>
<description>Error In Channel 14</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR15</name>
<description>Error In Channel 15</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>An error in this channel has not occurred</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An error in this channel has occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>HRS</name>
<description>Hardware Request Status Register</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>HRS0</name>
<description>Hardware Request Status Channel 0</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 0 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 0 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS1</name>
<description>Hardware Request Status Channel 1</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 1 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 1 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS2</name>
<description>Hardware Request Status Channel 2</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 2 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 2 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS3</name>
<description>Hardware Request Status Channel 3</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 3 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 3 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS4</name>
<description>Hardware Request Status Channel 4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 4 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 4 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS5</name>
<description>Hardware Request Status Channel 5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 5 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 5 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS6</name>
<description>Hardware Request Status Channel 6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 6 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 6 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS7</name>
<description>Hardware Request Status Channel 7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 7 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 7 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS8</name>
<description>Hardware Request Status Channel 8</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 8 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 8 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS9</name>
<description>Hardware Request Status Channel 9</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 9 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 9 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS10</name>
<description>Hardware Request Status Channel 10</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 10 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 10 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS11</name>
<description>Hardware Request Status Channel 11</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 11 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 11 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS12</name>
<description>Hardware Request Status Channel 12</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 12 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 12 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS13</name>
<description>Hardware Request Status Channel 13</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 13 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 13 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS14</name>
<description>Hardware Request Status Channel 14</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 14 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 14 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRS15</name>
<description>Hardware Request Status Channel 15</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A hardware service request for channel 15 is not present</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A hardware service request for channel 15 is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>EARS</name>
<description>Enable Asynchronous Request in Stop Register</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EDREQ_0</name>
<description>Enable asynchronous DMA request in stop mode for channel 0.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_1</name>
<description>Enable asynchronous DMA request in stop mode for channel 1.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 1</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_2</name>
<description>Enable asynchronous DMA request in stop mode for channel 2.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 2.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 2.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_3</name>
<description>Enable asynchronous DMA request in stop mode for channel 3.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 3.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 3.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_4</name>
<description>Enable asynchronous DMA request in stop mode for channel 4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 4.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 4.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_5</name>
<description>Enable asynchronous DMA request in stop mode for channel 5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 5.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 5.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_6</name>
<description>Enable asynchronous DMA request in stop mode for channel 6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 6.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 6.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_7</name>
<description>Enable asynchronous DMA request in stop mode for channel 7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 7.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 7.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_8</name>
<description>Enable asynchronous DMA request in stop mode for channel 8</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 8.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 8.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_9</name>
<description>Enable asynchronous DMA request in stop mode for channel 9</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 9.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 9.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_10</name>
<description>Enable asynchronous DMA request in stop mode for channel 10</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 10.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 10.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_11</name>
<description>Enable asynchronous DMA request in stop mode for channel 11</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 11.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 11.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_12</name>
<description>Enable asynchronous DMA request in stop mode for channel 12</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 12.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 12.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_13</name>
<description>Enable asynchronous DMA request in stop mode for channel 13</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 13.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 13.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_14</name>
<description>Enable asynchronous DMA request in stop mode for channel 14</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 14.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 14.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EDREQ_15</name>
<description>Enable asynchronous DMA request in stop mode for channel 15</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable asynchronous DMA request for channel 15.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable asynchronous DMA request for channel 15.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x1</dimIncrement>
<dimIndex>3,2,1,0,7,6,5,4,11,10,9,8,15,14,13,12</dimIndex>
<name>DCHPRI%s</name>
<description>Channel n Priority Register</description>
<addressOffset>0x100</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CHPRI</name>
<description>Channel n Arbitration Priority</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DPA</name>
<description>Disable Preempt Ability.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channel n can suspend a lower priority channel.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channel n cannot suspend any channel, regardless of channel priority.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ECP</name>
<description>Enable Channel Preemption.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channel n cannot be suspended by a higher priority channel&apos;s service request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channel n can be temporarily suspended by the service request of a higher priority channel.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_SADDR</name>
<description>TCD Source Address</description>
<addressOffset>0x1000</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>SADDR</name>
<description>Source Address</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_SOFF</name>
<description>TCD Signed Source Address Offset</description>
<addressOffset>0x1004</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>SOFF</name>
<description>Source address signed offset</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_ATTR</name>
<description>TCD Transfer Attributes</description>
<addressOffset>0x1006</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>DSIZE</name>
<description>Destination data transfer size</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DMOD</name>
<description>Destination Address Modulo</description>
<bitOffset>3</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SSIZE</name>
<description>Source data transfer size</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>8-bit</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>16-bit</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>32-bit</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>16-byte burst</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>32-byte burst</description>
<value>#101</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SMOD</name>
<description>Source Address Modulo</description>
<bitOffset>11</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Source address modulo feature is disabled</description>
<value>#00000</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_NBYTES_MLNO</name>
<description>TCD Minor Byte Count (Minor Loop Mapping Disabled)</description>
<alternateGroup>DMA</alternateGroup>
<addressOffset>0x1008</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>NBYTES</name>
<description>Minor Byte Transfer Count</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_NBYTES_MLOFFNO</name>
<description>TCD Signed Minor Loop Offset (Minor Loop Mapping Enabled and Offset Disabled)</description>
<alternateGroup>DMA</alternateGroup>
<addressOffset>0x1008</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>NBYTES</name>
<description>Minor Byte Transfer Count</description>
<bitOffset>0</bitOffset>
<bitWidth>30</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DMLOE</name>
<description>Destination Minor Loop Offset enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The minor loop offset is not applied to the DADDR</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The minor loop offset is applied to the DADDR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SMLOE</name>
<description>Source Minor Loop Offset Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The minor loop offset is not applied to the SADDR</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The minor loop offset is applied to the SADDR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_NBYTES_MLOFFYES</name>
<description>TCD Signed Minor Loop Offset (Minor Loop Mapping and Offset Enabled)</description>
<alternateGroup>DMA</alternateGroup>
<addressOffset>0x1008</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>NBYTES</name>
<description>Minor Byte Transfer Count</description>
<bitOffset>0</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MLOFF</name>
<description>If SMLOE or DMLOE is set, this field represents a sign-extended offset applied to the source or destination address to form the next-state value after the minor loop completes.</description>
<bitOffset>10</bitOffset>
<bitWidth>20</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DMLOE</name>
<description>Destination Minor Loop Offset enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The minor loop offset is not applied to the DADDR</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The minor loop offset is applied to the DADDR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SMLOE</name>
<description>Source Minor Loop Offset Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The minor loop offset is not applied to the SADDR</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The minor loop offset is applied to the SADDR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_SLAST</name>
<description>TCD Last Source Address Adjustment</description>
<addressOffset>0x100C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>SLAST</name>
<description>Last Source Address Adjustment</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_DADDR</name>
<description>TCD Destination Address</description>
<addressOffset>0x1010</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>DADDR</name>
<description>Destination Address</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_DOFF</name>
<description>TCD Signed Destination Address Offset</description>
<addressOffset>0x1014</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>DOFF</name>
<description>Destination Address Signed Offset</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_CITER_ELINKNO</name>
<description>TCD Current Minor Loop Link, Major Loop Count (Channel Linking Disabled)</description>
<alternateGroup>DMA</alternateGroup>
<addressOffset>0x1016</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>CITER</name>
<description>Current Major Iteration Count</description>
<bitOffset>0</bitOffset>
<bitWidth>15</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ELINK</name>
<description>Enable channel-to-channel linking on minor-loop complete</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel-to-channel linking is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel-to-channel linking is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_CITER_ELINKYES</name>
<description>TCD Current Minor Loop Link, Major Loop Count (Channel Linking Enabled)</description>
<alternateGroup>DMA</alternateGroup>
<addressOffset>0x1016</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>CITER</name>
<description>Current Major Iteration Count</description>
<bitOffset>0</bitOffset>
<bitWidth>9</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LINKCH</name>
<description>Minor Loop Link Channel Number</description>
<bitOffset>9</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ELINK</name>
<description>Enable channel-to-channel linking on minor-loop complete</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel-to-channel linking is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel-to-channel linking is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_DLASTSGA</name>
<description>TCD Last Destination Address Adjustment/Scatter Gather Address</description>
<addressOffset>0x1018</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>DLASTSGA</name>
<description>Destination last address adjustment or the memory address for the next transfer control descriptor to be loaded into this channel (scatter/gather)</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_CSR</name>
<description>TCD Control and Status</description>
<addressOffset>0x101C</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>START</name>
<description>Channel Start</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel is not explicitly started.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel is explicitly started via a software initiated service request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INTMAJOR</name>
<description>Enable an interrupt when major iteration count completes.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The end-of-major loop interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The end-of-major loop interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INTHALF</name>
<description>Enable an interrupt when major counter is half complete.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The half-point interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The half-point interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DREQ</name>
<description>Disable Request</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel&apos;s ERQ bit is not affected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel&apos;s ERQ bit is cleared when the major loop is complete.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ESG</name>
<description>Enable Scatter/Gather Processing</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The current channel&apos;s TCD is normal format.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The current channel&apos;s TCD specifies a scatter gather format. The DLASTSGA field provides a memory pointer to the next TCD to be loaded into this channel after the major loop completes its execution.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAJORELINK</name>
<description>Enable channel-to-channel linking on major loop complete</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel-to-channel linking is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel-to-channel linking is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACTIVE</name>
<description>Channel Active</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DONE</name>
<description>Channel Done</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MAJORLINKCH</name>
<description>Major Loop Link Channel Number</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BWC</name>
<description>Bandwidth Control</description>
<bitOffset>14</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No eDMA engine stalls.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>eDMA engine stalls for 4 cycles after each R/W.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>eDMA engine stalls for 8 cycles after each R/W.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_BITER_ELINKNO</name>
<description>TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Disabled)</description>
<alternateGroup>DMA</alternateGroup>
<addressOffset>0x101E</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>BITER</name>
<description>Starting Major Iteration Count</description>
<bitOffset>0</bitOffset>
<bitWidth>15</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ELINK</name>
<description>Enables channel-to-channel linking on minor loop complete</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel-to-channel linking is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel-to-channel linking is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x20</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>TCD%s_BITER_ELINKYES</name>
<description>TCD Beginning Minor Loop Link, Major Loop Count (Channel Linking Enabled)</description>
<alternateGroup>DMA</alternateGroup>
<addressOffset>0x101E</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>BITER</name>
<description>Starting major iteration count</description>
<bitOffset>0</bitOffset>
<bitWidth>9</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LINKCH</name>
<description>Link Channel Number</description>
<bitOffset>9</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ELINK</name>
<description>Enables channel-to-channel linking on minor loop complete</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel-to-channel linking is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel-to-channel linking is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>FMC</name>
<description>Flash Memory Controller</description>
<prependToName>FMC_</prependToName>
<baseAddress>0x4001F000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x300</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>PFAPR</name>
<description>Flash Access Protection Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xF8003F</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>M0AP</name>
<description>Master 0 Access Protection</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No access may be performed by this master</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Only read accesses may be performed by this master</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Only write accesses may be performed by this master</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Both read and write accesses may be performed by this master</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M1AP</name>
<description>Master 1 Access Protection</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No access may be performed by this master</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Only read accesses may be performed by this master</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Only write accesses may be performed by this master</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Both read and write accesses may be performed by this master</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M2AP</name>
<description>Master 2 Access Protection</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No access may be performed by this master</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Only read accesses may be performed by this master</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Only write accesses may be performed by this master</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Both read and write accesses may be performed by this master</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M3AP</name>
<description>Master 3 Access Protection</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No access may be performed by this master</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Only read accesses may be performed by this master</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Only write accesses may be performed by this master</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Both read and write accesses may be performed by this master</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M4AP</name>
<description>Master 4 Access Protection</description>
<bitOffset>8</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No access may be performed by this master</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Only read accesses may be performed by this master</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Only write accesses may be performed by this master</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Both read and write accesses may be performed by this master</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M5AP</name>
<description>Master 5 Access Protection</description>
<bitOffset>10</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No access may be performed by this master</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Only read accesses may be performed by this master</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Only write accesses may be performed by this master</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Both read and write accesses may be performed by this master</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M6AP</name>
<description>Master 6 Access Protection</description>
<bitOffset>12</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No access may be performed by this master</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Only read accesses may be performed by this master</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Only write accesses may be performed by this master</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Both read and write accesses may be performed by this master</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M7AP</name>
<description>Master 7 Access Protection</description>
<bitOffset>14</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No access may be performed by this master.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Only read accesses may be performed by this master.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Only write accesses may be performed by this master.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Both read and write accesses may be performed by this master.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M0PFD</name>
<description>Master 0 Prefetch Disable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prefetching for this master is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prefetching for this master is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M1PFD</name>
<description>Master 1 Prefetch Disable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prefetching for this master is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prefetching for this master is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M2PFD</name>
<description>Master 2 Prefetch Disable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prefetching for this master is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prefetching for this master is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M3PFD</name>
<description>Master 3 Prefetch Disable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prefetching for this master is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prefetching for this master is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M4PFD</name>
<description>Master 4 Prefetch Disable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prefetching for this master is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prefetching for this master is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M5PFD</name>
<description>Master 5 Prefetch Disable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prefetching for this master is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prefetching for this master is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M6PFD</name>
<description>Master 6 Prefetch Disable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prefetching for this master is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prefetching for this master is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M7PFD</name>
<description>Master 7 Prefetch Disable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prefetching for this master is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prefetching for this master is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PFB0CR</name>
<description>Flash Bank 0 Control Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x3002001F</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>B0SEBE</name>
<description>Bank 0 Single Entry Buffer Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Single entry buffer is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Single entry buffer is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B0IPE</name>
<description>Bank 0 Instruction Prefetch Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not prefetch in response to instruction fetches.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable prefetches in response to instruction fetches.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B0DPE</name>
<description>Bank 0 Data Prefetch Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not prefetch in response to data references.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable prefetches in response to data references.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B0ICE</name>
<description>Bank 0 Instruction Cache Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not cache instruction fetches.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Cache instruction fetches.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B0DCE</name>
<description>Bank 0 Data Cache Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not cache data references.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Cache data references.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRC</name>
<description>Cache Replacement Control</description>
<bitOffset>5</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>LRU replacement algorithm per set across all four ways</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Independent LRU with ways [0-1] for ifetches, [2-3] for data</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Independent LRU with ways [0-2] for ifetches, [3] for data</description>
<value>#011</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B0MW</name>
<description>Bank 0 Memory Width</description>
<bitOffset>17</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>32 bits</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>64 bits</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>S_B_INV</name>
<description>Invalidate Prefetch Speculation Buffer</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Speculation buffer and single entry buffer are not affected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Invalidate (clear) speculation buffer and single entry buffer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CINV_WAY</name>
<description>Cache Invalidate Way x</description>
<bitOffset>20</bitOffset>
<bitWidth>4</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No cache way invalidation for the corresponding cache</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Invalidate cache way for the corresponding cache: clear the tag, data, and vld bits of ways selected</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLCK_WAY</name>
<description>Cache Lock Way x</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Cache way is unlocked and may be displaced</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Cache way is locked and its contents are not displaced</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B0RWSC</name>
<description>Bank 0 Read Wait State Control</description>
<bitOffset>28</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>PFB1CR</name>
<description>Flash Bank 1 Control Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x3002001F</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>B1SEBE</name>
<description>Bank 1 Single Entry Buffer Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Single entry buffer is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Single entry buffer is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B1IPE</name>
<description>Bank 1 Instruction Prefetch Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not prefetch in response to instruction fetches.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable prefetches in response to instruction fetches.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B1DPE</name>
<description>Bank 1 Data Prefetch Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not prefetch in response to data references.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable prefetches in response to data references.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B1ICE</name>
<description>Bank 1 Instruction Cache Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not cache instruction fetches.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Cache instruction fetches.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B1DCE</name>
<description>Bank 1 Data Cache Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not cache data references.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Cache data references.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B1MW</name>
<description>Bank 1 Memory Width</description>
<bitOffset>17</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>32 bits</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>64 bits</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>B1RWSC</name>
<description>Bank 1 Read Wait State Control</description>
<bitOffset>28</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>TAGVDW0S%s</name>
<description>Cache Tag Storage</description>
<addressOffset>0x100</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>valid</name>
<description>1-bit valid for cache entry</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>tag</name>
<description>14-bit tag for cache entry</description>
<bitOffset>5</bitOffset>
<bitWidth>14</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>TAGVDW1S%s</name>
<description>Cache Tag Storage</description>
<addressOffset>0x120</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>valid</name>
<description>1-bit valid for cache entry</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>tag</name>
<description>14-bit tag for cache entry</description>
<bitOffset>5</bitOffset>
<bitWidth>14</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>TAGVDW2S%s</name>
<description>Cache Tag Storage</description>
<addressOffset>0x140</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>valid</name>
<description>1-bit valid for cache entry</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>tag</name>
<description>14-bit tag for cache entry</description>
<bitOffset>5</bitOffset>
<bitWidth>14</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>TAGVDW3S%s</name>
<description>Cache Tag Storage</description>
<addressOffset>0x160</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>valid</name>
<description>1-bit valid for cache entry</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>tag</name>
<description>14-bit tag for cache entry</description>
<bitOffset>5</bitOffset>
<bitWidth>14</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>DATAW0S%sU</name>
<description>Cache Data Storage (upper word)</description>
<addressOffset>0x200</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>data</name>
<description>Bits [63:32] of data entry</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>DATAW0S%sL</name>
<description>Cache Data Storage (lower word)</description>
<addressOffset>0x204</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>data</name>
<description>Bits [31:0] of data entry</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>DATAW1S%sU</name>
<description>Cache Data Storage (upper word)</description>
<addressOffset>0x240</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>data</name>
<description>Bits [63:32] of data entry</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>DATAW1S%sL</name>
<description>Cache Data Storage (lower word)</description>
<addressOffset>0x244</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>data</name>
<description>Bits [31:0] of data entry</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>DATAW2S%sU</name>
<description>Cache Data Storage (upper word)</description>
<addressOffset>0x280</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>data</name>
<description>Bits [63:32] of data entry</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>DATAW2S%sL</name>
<description>Cache Data Storage (lower word)</description>
<addressOffset>0x284</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>data</name>
<description>Bits [31:0] of data entry</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>DATAW3S%sU</name>
<description>Cache Data Storage (upper word)</description>
<addressOffset>0x2C0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>data</name>
<description>Bits [63:32] of data entry</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>DATAW3S%sL</name>
<description>Cache Data Storage (lower word)</description>
<addressOffset>0x2C4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>data</name>
<description>Bits [31:0] of data entry</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>FTFA</name>
<description>Flash Memory Interface</description>
<prependToName>FTFA_</prependToName>
<baseAddress>0x40020000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x2C</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>FTF</name>
<value>18</value>
</interrupt>
<interrupt>
<name>Read_Collision</name>
<value>19</value>
</interrupt>
<registers>
<register>
<name>FSTAT</name>
<description>Flash Status Register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MGSTAT0</name>
<description>Memory Controller Command Completion Status Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
<field>
<name>FPVIOL</name>
<description>Flash Protection Violation Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No protection violation detected</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Protection violation detected</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACCERR</name>
<description>Flash Access Error Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No access error detected</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Access error detected</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDCOLERR</name>
<description>Flash Read Collision Error Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No collision error detected</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Collision error detected</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CCIF</name>
<description>Command Complete Interrupt Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Flash command in progress</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Flash command has completed</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FCNFG</name>
<description>Flash Configuration Register</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ERSSUSP</name>
<description>Erase Suspend</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No suspend requested</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Suspend the current Erase Flash Sector command execution.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERSAREQ</name>
<description>Erase All Request</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No request or request complete</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Request to: run the Erase All Blocks command, verify the erased state, program the security byte in the Flash Configuration Field to the unsecure state, and release MCU security by setting the FSEC[SEC] field to the unsecure state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDCOLLIE</name>
<description>Read Collision Error Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Read collision error interrupt disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Read collision error interrupt enabled. An interrupt request is generated whenever a flash memory read collision error is detected (see the description of FSTAT[RDCOLERR]).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CCIE</name>
<description>Command Complete Interrupt Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Command complete interrupt disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Command complete interrupt enabled. An interrupt request is generated whenever the FSTAT[CCIF] flag is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FSEC</name>
<description>Flash Security Register</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>SEC</name>
<description>Flash Security</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>MCU security status is secure.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCU security status is secure.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>MCU security status is unsecure. (The standard shipping condition of the flash memory module is unsecure.)</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCU security status is secure.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSLACC</name>
<description>Freescale Failure Analysis Access Code</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Freescale factory access granted</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Freescale factory access denied</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Freescale factory access denied</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Freescale factory access granted</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MEEN</name>
<description>Mass Erase Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Mass erase is enabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Mass erase is enabled</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Mass erase is disabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Mass erase is enabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>KEYEN</name>
<description>Backdoor Key Security Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Backdoor key access disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Backdoor key access disabled (preferred KEYEN state to disable backdoor key access)</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Backdoor key access enabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Backdoor key access disabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FOPT</name>
<description>Flash Option Register</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>OPT</name>
<description>Nonvolatile Option</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>12</dim>
<dimIncrement>0x1</dimIncrement>
<dimIndex>3,2,1,0,7,6,5,4,B,A,9,8</dimIndex>
<name>FCCOB%s</name>
<description>Flash Common Command Object Registers</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CCOBn</name>
<description>The FCCOB register provides a command code and relevant parameters to the memory controller</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x1</dimIncrement>
<dimIndex>3,2,1,0</dimIndex>
<name>FPROT%s</name>
<description>Program Flash Protection Registers</description>
<addressOffset>0x10</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>PROT</name>
<description>Program Flash Region Protect</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Program flash region is protected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Program flash region is not protected</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x1</dimIncrement>
<dimIndex>H3,H2,H1,H0,L3,L2,L1,L0</dimIndex>
<name>XACC%s</name>
<description>Execute-only Access Registers</description>
<addressOffset>0x18</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>XA</name>
<description>Execute-only access control</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Associated segment is accessible in execute mode only (as an instruction fetch)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Associated segment is accessible as data or in execute mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>8</dim>
<dimIncrement>0x1</dimIncrement>
<dimIndex>H3,H2,H1,H0,L3,L2,L1,L0</dimIndex>
<name>SACC%s</name>
<description>Supervisor-only Access Registers</description>
<addressOffset>0x20</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>SA</name>
<description>Supervisor-only access control</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Associated segment is accessible in supervisor mode only</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Associated segment is accessible in user or supervisor mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FACSS</name>
<description>Flash Access Segment Size Register</description>
<addressOffset>0x28</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>SGSIZE</name>
<description>Segment Size</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>FACSN</name>
<description>Flash Access Segment Number Register</description>
<addressOffset>0x2B</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>NUMSG</name>
<description>Number of Segments Indicator</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>100000</name>
<description>Program flash memory is divided into 32 segments (64 Kbytes, 128 Kbytes)</description>
<value>#100000</value>
</enumeratedValue>
<enumeratedValue>
<name>101000</name>
<description>Program flash memory is divided into 40 segments (160 Kbytes)</description>
<value>#101000</value>
</enumeratedValue>
<enumeratedValue>
<name>1000000</name>
<description>Program flash memory is divided into 64 segments (256 Kbytes, 512 Kbytes)</description>
<value>#1000000</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>DMAMUX</name>
<description>DMA channel multiplexor</description>
<prependToName>DMAMUX_</prependToName>
<baseAddress>0x40021000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x10</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<dim>16</dim>
<dimIncrement>0x1</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>CHCFG%s</name>
<description>Channel Configuration register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SOURCE</name>
<description>DMA Channel Source (Slot)</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable_Signal</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>2</name>
<description>UART0_Rx_Signal</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>3</name>
<description>UART0_Tx_Signal</description>
<value>#11</value>
</enumeratedValue>
<enumeratedValue>
<name>4</name>
<description>UART1_Rx_Signal</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>5</name>
<description>UART1_Tx_Signal</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>6</name>
<description>UART2_Rx_Signal</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>7</name>
<description>UART2_Tx_Signal</description>
<value>#111</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>FlexCAN0_Signal</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>12</name>
<description>I2S0_Rx_Signal</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>13</name>
<description>I2S0_Tx_Signal</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>14</name>
<description>SPI0_Rx_Signal</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>15</name>
<description>SPI0_Tx_Signal</description>
<value>#1111</value>
</enumeratedValue>
<enumeratedValue>
<name>16</name>
<description>SPI1_Signal</description>
<value>#10000</value>
</enumeratedValue>
<enumeratedValue>
<name>18</name>
<description>LPI2C0_Rx_Signal</description>
<value>#10010</value>
</enumeratedValue>
<enumeratedValue>
<name>19</name>
<description>LPI2C1_Rx_Signal</description>
<value>#10011</value>
</enumeratedValue>
<enumeratedValue>
<name>20</name>
<description>TPM0_Channel0_Signal</description>
<value>#10100</value>
</enumeratedValue>
<enumeratedValue>
<name>21</name>
<description>TPM0_Channel1_Signal</description>
<value>#10101</value>
</enumeratedValue>
<enumeratedValue>
<name>22</name>
<description>TPM0_Channel2_Signal</description>
<value>#10110</value>
</enumeratedValue>
<enumeratedValue>
<name>23</name>
<description>TPM0_Channel3_Signal</description>
<value>#10111</value>
</enumeratedValue>
<enumeratedValue>
<name>24</name>
<description>TPM0_Channel4_Signal</description>
<value>#11000</value>
</enumeratedValue>
<enumeratedValue>
<name>25</name>
<description>TPM0_Channel5_Signal</description>
<value>#11001</value>
</enumeratedValue>
<enumeratedValue>
<name>26</name>
<description>LPI2C0_Tx_Signal</description>
<value>#11010</value>
</enumeratedValue>
<enumeratedValue>
<name>27</name>
<description>LPI2C1_Tx_Signal</description>
<value>#11011</value>
</enumeratedValue>
<enumeratedValue>
<name>28</name>
<description>TPM1_Channel0_Signal</description>
<value>#11100</value>
</enumeratedValue>
<enumeratedValue>
<name>29</name>
<description>TPM1_Channel1_Signal</description>
<value>#11101</value>
</enumeratedValue>
<enumeratedValue>
<name>30</name>
<description>TPM2_Channel0_Signal</description>
<value>#11110</value>
</enumeratedValue>
<enumeratedValue>
<name>31</name>
<description>TPM2_Channel1_Signal</description>
<value>#11111</value>
</enumeratedValue>
<enumeratedValue>
<name>38</name>
<description>FlexIO_Channel0_Signal</description>
<value>#100110</value>
</enumeratedValue>
<enumeratedValue>
<name>39</name>
<description>FlexIO_Channel1_Signal</description>
<value>#100111</value>
</enumeratedValue>
<enumeratedValue>
<name>40</name>
<description>ADC0_Signal</description>
<value>#101000</value>
</enumeratedValue>
<enumeratedValue>
<name>41</name>
<description>FlexCAN1_Signal</description>
<value>#101001</value>
</enumeratedValue>
<enumeratedValue>
<name>42</name>
<description>CMP0_Signal</description>
<value>#101010</value>
</enumeratedValue>
<enumeratedValue>
<name>43</name>
<description>FlexIO_Channel2_Signal</description>
<value>#101011</value>
</enumeratedValue>
<enumeratedValue>
<name>44</name>
<description>FlexIO_Channel3_Signal</description>
<value>#101100</value>
</enumeratedValue>
<enumeratedValue>
<name>45</name>
<description>DAC0_Signal</description>
<value>#101101</value>
</enumeratedValue>
<enumeratedValue>
<name>46</name>
<description>I2S1_Rx_Signal</description>
<value>#101110</value>
</enumeratedValue>
<enumeratedValue>
<name>47</name>
<description>I2S1_Tx_Signal</description>
<value>#101111</value>
</enumeratedValue>
<enumeratedValue>
<name>48</name>
<description>PDB_Signal</description>
<value>#110000</value>
</enumeratedValue>
<enumeratedValue>
<name>49</name>
<description>PortA_Signal</description>
<value>#110001</value>
</enumeratedValue>
<enumeratedValue>
<name>50</name>
<description>PortB_Signal</description>
<value>#110010</value>
</enumeratedValue>
<enumeratedValue>
<name>51</name>
<description>PortC_Signal</description>
<value>#110011</value>
</enumeratedValue>
<enumeratedValue>
<name>52</name>
<description>PortD_Signal</description>
<value>#110100</value>
</enumeratedValue>
<enumeratedValue>
<name>53</name>
<description>PortE_Signal</description>
<value>#110101</value>
</enumeratedValue>
<enumeratedValue>
<name>54</name>
<description>TPM0_Overflow_Signal</description>
<value>#110110</value>
</enumeratedValue>
<enumeratedValue>
<name>55</name>
<description>TPM1_Overflow_Signal</description>
<value>#110111</value>
</enumeratedValue>
<enumeratedValue>
<name>56</name>
<description>TPM2_Overflow_Signal</description>
<value>#111000</value>
</enumeratedValue>
<enumeratedValue>
<name>58</name>
<description>LPUART0_Rx_Signal</description>
<value>#111010</value>
</enumeratedValue>
<enumeratedValue>
<name>59</name>
<description>LPUART0_Tx_Signal</description>
<value>#111011</value>
</enumeratedValue>
<enumeratedValue>
<name>60</name>
<description>AlwaysOn60_Signal</description>
<value>#111100</value>
</enumeratedValue>
<enumeratedValue>
<name>61</name>
<description>AlwaysOn61_Signal</description>
<value>#111101</value>
</enumeratedValue>
<enumeratedValue>
<name>62</name>
<description>AlwaysOn62_Signal</description>
<value>#111110</value>
</enumeratedValue>
<enumeratedValue>
<name>63</name>
<description>AlwaysOn63_Signal</description>
<value>#111111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG</name>
<description>DMA Channel Trigger Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Triggering is disabled. If triggering is disabled and ENBL is set, the DMA Channel will simply route the specified source to the DMA channel. (Normal mode)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Triggering is enabled. If triggering is enabled and ENBL is set, the DMAMUX is in Periodic Trigger mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ENBL</name>
<description>DMA Channel Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA channel is disabled. This mode is primarily used during configuration of the DMAMux. The DMA has separate channel enables/disables, which should be used to disable or reconfigure a DMA channel.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA channel is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>CAN0</name>
<description>Flex Controller Area Network module</description>
<groupName>CAN</groupName>
<prependToName>CAN0_</prependToName>
<baseAddress>0x40024000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x8C0</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>CAN0_ORed_Message_buffer</name>
<value>75</value>
</interrupt>
<interrupt>
<name>CAN0_Bus_Off</name>
<value>76</value>
</interrupt>
<interrupt>
<name>CAN0_Error</name>
<value>77</value>
</interrupt>
<interrupt>
<name>CAN0_Tx_Warning</name>
<value>78</value>
</interrupt>
<interrupt>
<name>CAN0_Rx_Warning</name>
<value>79</value>
</interrupt>
<interrupt>
<name>CAN0_Wake_Up</name>
<value>80</value>
</interrupt>
<registers>
<register>
<name>MCR</name>
<description>Module Configuration Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xD890000F</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MAXMB</name>
<description>Number Of The Last Message Buffer</description>
<bitOffset>0</bitOffset>
<bitWidth>7</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDAM</name>
<description>ID Acceptance Mode</description>
<bitOffset>8</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Format A: One full ID (standard and extended) per ID Filter Table element.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Format B: Two full standard IDs or two partial 14-bit (standard and extended) IDs per ID Filter Table element.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Format C: Four partial 8-bit Standard IDs per ID Filter Table element.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Format D: All frames rejected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AEN</name>
<description>Abort Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Abort disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Abort enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPRIOEN</name>
<description>Local Priority Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Local Priority disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Local Priority enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMA</name>
<description>DMA Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA feature for RX FIFO disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA feature for RX FIFO enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRMQ</name>
<description>Individual Rx Masking And Queue Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Individual Rx masking and queue feature are disabled. For backward compatibility with legacy applications, the reading of C/S word locks the MB even if it is EMPTY.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Individual Rx masking and queue feature are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRXDIS</name>
<description>Self Reception Disable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Self reception enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Self reception disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOZE</name>
<description>Doze Mode Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not enabled to enter low-power mode when Doze mode is requested.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is enabled to enter low-power mode when Doze mode is requested.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAKSRC</name>
<description>Wake Up Source</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN uses the unfiltered Rx input to detect recessive to dominant edges on the CAN bus.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN uses the filtered Rx input to detect recessive to dominant edges on the CAN bus.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPMACK</name>
<description>Low-Power Mode Acknowledge</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not in a low-power mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is in a low-power mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WRNEN</name>
<description>Warning Interrupt Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TWRNINT and RWRNINT bits are zero, independent of the values in the error counters.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TWRNINT and RWRNINT bits are set when the respective error counter transitions from less than 96 to greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLFWAK</name>
<description>Self Wake Up</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN Self Wake Up feature is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN Self Wake Up feature is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SUPV</name>
<description>Supervisor Mode</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is in User mode. Affected registers allow both Supervisor and Unrestricted accesses.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is in Supervisor mode. Affected registers allow only Supervisor access. Unrestricted access behaves as though the access was done to an unimplemented register location.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRZACK</name>
<description>Freeze Mode Acknowledge</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN not in Freeze mode, prescaler running.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN in Freeze mode, prescaler stopped.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SOFTRST</name>
<description>Soft Reset</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No reset request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Resets the registers affected by soft reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAKMSK</name>
<description>Wake Up Interrupt Mask</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Wake Up Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Wake Up Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOTRDY</name>
<description>FlexCAN Not Ready</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN module is either in Normal mode, Listen-Only mode or Loop-Back mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN module is either in Disable mode, Doze mode , Stop mode or Freeze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HALT</name>
<description>Halt FlexCAN</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No Freeze mode request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enters Freeze mode if the FRZ bit is asserted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RFEN</name>
<description>Rx FIFO Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Rx FIFO not enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Rx FIFO enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRZ</name>
<description>Freeze Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Not enabled to enter Freeze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled to enter Freeze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MDIS</name>
<description>Module Disable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Enable the FlexCAN module.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Disable the FlexCAN module.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CTRL1</name>
<description>Control 1 register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PROPSEG</name>
<description>Propagation Segment</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LOM</name>
<description>Listen-Only Mode</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Listen-Only mode is deactivated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN module operates in Listen-Only mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBUF</name>
<description>Lowest Buffer Transmitted First</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Buffer with highest priority is transmitted first.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Lowest number buffer is transmitted first.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TSYN</name>
<description>Timer Sync</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timer Sync feature disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timer Sync feature enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOFFREC</name>
<description>Bus Off Recovery</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Automatic recovering from Bus Off state enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Automatic recovering from Bus Off state disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SMP</name>
<description>CAN Bit Sampling</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Just one sample is used to determine the bit value.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Three samples are used to determine the value of the received bit: the regular one (sample point) and 2 preceding samples; a majority rule is used.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWRNMSK</name>
<description>Rx Warning Interrupt Mask</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Rx Warning Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Rx Warning Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWRNMSK</name>
<description>Tx Warning Interrupt Mask</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Tx Warning Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Tx Warning Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPB</name>
<description>Loop Back Mode</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Loop Back disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Loop Back enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLKSRC</name>
<description>CAN Engine Clock Source</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The CAN engine clock source is the oscillator clock. Under this condition, the oscillator clock frequency must be lower than the bus clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The CAN engine clock source is the peripheral clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERRMSK</name>
<description>Error Interrupt Mask</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Error interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Error interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOFFMSK</name>
<description>Bus Off Interrupt Mask</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bus Off interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bus Off interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PSEG2</name>
<description>Phase Segment 2</description>
<bitOffset>16</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PSEG1</name>
<description>Phase Segment 1</description>
<bitOffset>19</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RJW</name>
<description>Resync Jump Width</description>
<bitOffset>22</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRESDIV</name>
<description>Prescaler Division Factor</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TIMER</name>
<description>Free Running Timer</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIMER</name>
<description>Timer Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RXMGMASK</name>
<description>Rx Mailboxes Global Mask Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>MG0</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG1</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG2</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG3</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG4</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG5</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG6</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG7</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG8</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG9</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG10</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG11</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG12</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG13</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG14</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG15</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG16</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG17</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG18</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG19</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG20</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG21</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG22</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG23</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG24</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG25</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG26</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG27</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG28</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG29</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG30</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG31</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RX14MASK</name>
<description>Rx 14 Mask register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>RX14M0</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M1</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M2</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M3</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M4</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M5</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M6</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M7</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M8</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M9</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M10</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M11</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M12</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M13</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M14</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M15</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M16</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M17</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M18</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M19</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M20</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M21</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M22</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M23</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M24</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M25</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M26</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M27</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M28</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M29</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M30</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M31</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RX15MASK</name>
<description>Rx 15 Mask register</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>RX15M0</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M1</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M2</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M3</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M4</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M5</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M6</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M7</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M8</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M9</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M10</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M11</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M12</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M13</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M14</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M15</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M16</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M17</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M18</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M19</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M20</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M21</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M22</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M23</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M24</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M25</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M26</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M27</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M28</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M29</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M30</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M31</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ECR</name>
<description>Error Counter</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXERRCNT</name>
<description>Transmit Error Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RXERRCNT</name>
<description>Receive Error Counter</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ESR1</name>
<description>Error and Status 1 register</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>WAKINT</name>
<description>Wake-Up Interrupt</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Indicates a recessive to dominant transition was received on the CAN bus.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERRINT</name>
<description>Error Interrupt</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Indicates setting of any Error Bit in the Error and Status Register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOFFINT</name>
<description>Bus Off Interrupt</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN module entered Bus Off state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX</name>
<description>FlexCAN In Reception</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not receiving a message.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is receiving a message.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FLTCONF</name>
<description>Fault Confinement State</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Error Active</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Error Passive</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TX</name>
<description>FlexCAN In Transmission</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not transmitting a message.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is transmitting a message.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IDLE</name>
<description>This bit indicates when CAN bus is in IDLE state</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>CAN bus is now IDLE.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXWRN</name>
<description>Rx Error Warning</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXERRCNT is greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXWRN</name>
<description>TX Error Warning</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXERRCNT is greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STFERR</name>
<description>Stuffing Error</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A Stuffing Error occurred since last read of this register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRMERR</name>
<description>Form Error</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A Form Error occurred since last read of this register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRCERR</name>
<description>Cyclic Redundancy Check Error</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A CRC error occurred since last read of this register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACKERR</name>
<description>Acknowledge Error</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An ACK error occurred since last read of this register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BIT0ERR</name>
<description>Bit0 Error</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one bit sent as dominant is received as recessive.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BIT1ERR</name>
<description>Bit1 Error</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one bit sent as recessive is received as dominant.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWRNINT</name>
<description>Rx Warning Interrupt Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The Rx error counter transitioned from less than 96 to greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWRNINT</name>
<description>Tx Warning Interrupt Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The Tx error counter transitioned from less than 96 to greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYNCH</name>
<description>CAN Synchronization Status</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not synchronized to the CAN bus.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is synchronized to the CAN bus.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOFFDONEINT</name>
<description>Bus Off Done Interrupt</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN module has completed Bus Off process.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERROVR</name>
<description>Error Overrun bit</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Overrun has not occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Overrun has occured.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IMASK1</name>
<description>Interrupt Masks 1 register</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>BUF31TO0M0</name>
<description>Buffer MB i Mask</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M1</name>
<description>Buffer MB i Mask</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M2</name>
<description>Buffer MB i Mask</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M3</name>
<description>Buffer MB i Mask</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M4</name>
<description>Buffer MB i Mask</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M5</name>
<description>Buffer MB i Mask</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M6</name>
<description>Buffer MB i Mask</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M7</name>
<description>Buffer MB i Mask</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M8</name>
<description>Buffer MB i Mask</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M9</name>
<description>Buffer MB i Mask</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M10</name>
<description>Buffer MB i Mask</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M11</name>
<description>Buffer MB i Mask</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M12</name>
<description>Buffer MB i Mask</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M13</name>
<description>Buffer MB i Mask</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M14</name>
<description>Buffer MB i Mask</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M15</name>
<description>Buffer MB i Mask</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M16</name>
<description>Buffer MB i Mask</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M17</name>
<description>Buffer MB i Mask</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M18</name>
<description>Buffer MB i Mask</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M19</name>
<description>Buffer MB i Mask</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M20</name>
<description>Buffer MB i Mask</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M21</name>
<description>Buffer MB i Mask</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M22</name>
<description>Buffer MB i Mask</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M23</name>
<description>Buffer MB i Mask</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M24</name>
<description>Buffer MB i Mask</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M25</name>
<description>Buffer MB i Mask</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M26</name>
<description>Buffer MB i Mask</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M27</name>
<description>Buffer MB i Mask</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M28</name>
<description>Buffer MB i Mask</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M29</name>
<description>Buffer MB i Mask</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M30</name>
<description>Buffer MB i Mask</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M31</name>
<description>Buffer MB i Mask</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IFLAG1</name>
<description>Interrupt Flags 1 register</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>BUF0I</name>
<description>Buffer MB0 Interrupt Or Clear FIFO bit</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF4TO1I0</name>
<description>Buffer MB i Interrupt Or &quot;reserved&quot;</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF4TO1I1</name>
<description>Buffer MB i Interrupt Or &quot;reserved&quot;</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF4TO1I2</name>
<description>Buffer MB i Interrupt Or &quot;reserved&quot;</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF4TO1I3</name>
<description>Buffer MB i Interrupt Or &quot;reserved&quot;</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF5I</name>
<description>Buffer MB5 Interrupt Or &quot;Frames available in Rx FIFO&quot;</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No occurrence of MB5 completing transmission/reception when MCR[RFEN]=0, or of frame(s) available in the FIFO, when MCR[RFEN]=1</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MB5 completed transmission/reception when MCR[RFEN]=0, or frame(s) available in the Rx FIFO when MCR[RFEN]=1. It generates a DMA request in case of MCR[RFEN] and MCR[DMA] are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF6I</name>
<description>Buffer MB6 Interrupt Or &quot;Rx FIFO Warning&quot;</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No occurrence of MB6 completing transmission/reception when MCR[RFEN]=0, or of Rx FIFO almost full when MCR[RFEN]=1</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MB6 completed transmission/reception when MCR[RFEN]=0, or Rx FIFO almost full when MCR[RFEN]=1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF7I</name>
<description>Buffer MB7 Interrupt Or &quot;Rx FIFO Overflow&quot;</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No occurrence of MB7 completing transmission/reception when MCR[RFEN]=0, or of Rx FIFO overflow when MCR[RFEN]=1</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MB7 completed transmission/reception when MCR[RFEN]=0, or Rx FIFO overflow when MCR[RFEN]=1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I0</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I1</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I2</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I3</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I4</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I5</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I6</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I7</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I8</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I9</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I10</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I11</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I12</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I13</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I14</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I15</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I16</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I17</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I18</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I19</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I20</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I21</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I22</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I23</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CTRL2</name>
<description>Control 2 register</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xB00000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EACEN</name>
<description>Entire Frame Arbitration Field Comparison Enable For Rx Mailboxes</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Rx Mailbox filter&apos;s IDE bit is always compared and RTR is never compared despite mask bits.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the comparison of both Rx Mailbox filter&apos;s IDE and RTR bit with their corresponding bits within the incoming frame. Mask bits do apply.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RRS</name>
<description>Remote Request Storing</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Remote Response Frame is generated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Remote Request Frame is stored.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MRP</name>
<description>Mailboxes Reception Priority</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Matching starts from Rx FIFO and continues on Mailboxes.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Matching starts from Mailboxes and continues on Rx FIFO.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TASD</name>
<description>Tx Arbitration Start Delay</description>
<bitOffset>19</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RFFN</name>
<description>Number Of Rx FIFO Filters</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BOFFDONEMSK</name>
<description>Bus Off Done Interrupt Mask</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bus Off Done interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bus Off Done interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ESR2</name>
<description>Error and Status 2 register</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>IMB</name>
<description>Inactive Mailbox</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If ESR2[VPS] is asserted, the ESR2[LPTM] is not an inactive Mailbox.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If ESR2[VPS] is asserted, there is at least one inactive Mailbox. LPTM content is the number of the first one.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VPS</name>
<description>Valid Priority Status</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Contents of IMB and LPTM are invalid.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Contents of IMB and LPTM are valid.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPTM</name>
<description>Lowest Priority Tx Mailbox</description>
<bitOffset>16</bitOffset>
<bitWidth>7</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>CRCR</name>
<description>CRC Register</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXCRC</name>
<description>Transmitted CRC value</description>
<bitOffset>0</bitOffset>
<bitWidth>15</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MBCRC</name>
<description>CRC Mailbox</description>
<bitOffset>16</bitOffset>
<bitWidth>7</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RXFGMASK</name>
<description>Rx FIFO Global Mask register</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>FGM0</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM1</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM2</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM3</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM4</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM5</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM6</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM7</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM8</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM9</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM10</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM11</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM12</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM13</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM14</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM15</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM16</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM17</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM18</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM19</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM20</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM21</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM22</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM23</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM24</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM25</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM26</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM27</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM28</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM29</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM30</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM31</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RXFIR</name>
<description>Rx FIFO Information Register</description>
<addressOffset>0x4C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>IDHIT</name>
<description>Identifier Acceptance Filter Hit Indicator</description>
<bitOffset>0</bitOffset>
<bitWidth>9</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>CBT</name>
<description>CAN Bit Timing Register</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EPSEG2</name>
<description>Extended Phase Segment 2</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPSEG1</name>
<description>Extended Phase Segment 1</description>
<bitOffset>5</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPROPSEG</name>
<description>Extended Propagation Segment</description>
<bitOffset>10</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ERJW</name>
<description>Extended Resync Jump Width</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPRESDIV</name>
<description>Extended Prescaler Division Factor</description>
<bitOffset>21</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BTF</name>
<description>Bit Timing Format Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Extended bit time definitions disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Extended bit time definitions enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CS0</name>
<description>Message Buffer 0 CS Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID0</name>
<description>Message Buffer 0 ID Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD00</name>
<description>Message Buffer 0 WORD0 Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD10</name>
<description>Message Buffer 0 WORD1 Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS1</name>
<description>Message Buffer 1 CS Register</description>
<addressOffset>0x90</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID1</name>
<description>Message Buffer 1 ID Register</description>
<addressOffset>0x94</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD01</name>
<description>Message Buffer 1 WORD0 Register</description>
<addressOffset>0x98</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD11</name>
<description>Message Buffer 1 WORD1 Register</description>
<addressOffset>0x9C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS2</name>
<description>Message Buffer 2 CS Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID2</name>
<description>Message Buffer 2 ID Register</description>
<addressOffset>0xA4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD02</name>
<description>Message Buffer 2 WORD0 Register</description>
<addressOffset>0xA8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD12</name>
<description>Message Buffer 2 WORD1 Register</description>
<addressOffset>0xAC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS3</name>
<description>Message Buffer 3 CS Register</description>
<addressOffset>0xB0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID3</name>
<description>Message Buffer 3 ID Register</description>
<addressOffset>0xB4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD03</name>
<description>Message Buffer 3 WORD0 Register</description>
<addressOffset>0xB8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD13</name>
<description>Message Buffer 3 WORD1 Register</description>
<addressOffset>0xBC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS4</name>
<description>Message Buffer 4 CS Register</description>
<addressOffset>0xC0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID4</name>
<description>Message Buffer 4 ID Register</description>
<addressOffset>0xC4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD04</name>
<description>Message Buffer 4 WORD0 Register</description>
<addressOffset>0xC8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD14</name>
<description>Message Buffer 4 WORD1 Register</description>
<addressOffset>0xCC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS5</name>
<description>Message Buffer 5 CS Register</description>
<addressOffset>0xD0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID5</name>
<description>Message Buffer 5 ID Register</description>
<addressOffset>0xD4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD05</name>
<description>Message Buffer 5 WORD0 Register</description>
<addressOffset>0xD8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD15</name>
<description>Message Buffer 5 WORD1 Register</description>
<addressOffset>0xDC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS6</name>
<description>Message Buffer 6 CS Register</description>
<addressOffset>0xE0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID6</name>
<description>Message Buffer 6 ID Register</description>
<addressOffset>0xE4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD06</name>
<description>Message Buffer 6 WORD0 Register</description>
<addressOffset>0xE8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD16</name>
<description>Message Buffer 6 WORD1 Register</description>
<addressOffset>0xEC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS7</name>
<description>Message Buffer 7 CS Register</description>
<addressOffset>0xF0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID7</name>
<description>Message Buffer 7 ID Register</description>
<addressOffset>0xF4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD07</name>
<description>Message Buffer 7 WORD0 Register</description>
<addressOffset>0xF8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD17</name>
<description>Message Buffer 7 WORD1 Register</description>
<addressOffset>0xFC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS8</name>
<description>Message Buffer 8 CS Register</description>
<addressOffset>0x100</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID8</name>
<description>Message Buffer 8 ID Register</description>
<addressOffset>0x104</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD08</name>
<description>Message Buffer 8 WORD0 Register</description>
<addressOffset>0x108</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD18</name>
<description>Message Buffer 8 WORD1 Register</description>
<addressOffset>0x10C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS9</name>
<description>Message Buffer 9 CS Register</description>
<addressOffset>0x110</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID9</name>
<description>Message Buffer 9 ID Register</description>
<addressOffset>0x114</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD09</name>
<description>Message Buffer 9 WORD0 Register</description>
<addressOffset>0x118</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD19</name>
<description>Message Buffer 9 WORD1 Register</description>
<addressOffset>0x11C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS10</name>
<description>Message Buffer 10 CS Register</description>
<addressOffset>0x120</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID10</name>
<description>Message Buffer 10 ID Register</description>
<addressOffset>0x124</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD010</name>
<description>Message Buffer 10 WORD0 Register</description>
<addressOffset>0x128</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD110</name>
<description>Message Buffer 10 WORD1 Register</description>
<addressOffset>0x12C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS11</name>
<description>Message Buffer 11 CS Register</description>
<addressOffset>0x130</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID11</name>
<description>Message Buffer 11 ID Register</description>
<addressOffset>0x134</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD011</name>
<description>Message Buffer 11 WORD0 Register</description>
<addressOffset>0x138</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD111</name>
<description>Message Buffer 11 WORD1 Register</description>
<addressOffset>0x13C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS12</name>
<description>Message Buffer 12 CS Register</description>
<addressOffset>0x140</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID12</name>
<description>Message Buffer 12 ID Register</description>
<addressOffset>0x144</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD012</name>
<description>Message Buffer 12 WORD0 Register</description>
<addressOffset>0x148</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD112</name>
<description>Message Buffer 12 WORD1 Register</description>
<addressOffset>0x14C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS13</name>
<description>Message Buffer 13 CS Register</description>
<addressOffset>0x150</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID13</name>
<description>Message Buffer 13 ID Register</description>
<addressOffset>0x154</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD013</name>
<description>Message Buffer 13 WORD0 Register</description>
<addressOffset>0x158</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD113</name>
<description>Message Buffer 13 WORD1 Register</description>
<addressOffset>0x15C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS14</name>
<description>Message Buffer 14 CS Register</description>
<addressOffset>0x160</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID14</name>
<description>Message Buffer 14 ID Register</description>
<addressOffset>0x164</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD014</name>
<description>Message Buffer 14 WORD0 Register</description>
<addressOffset>0x168</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD114</name>
<description>Message Buffer 14 WORD1 Register</description>
<addressOffset>0x16C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS15</name>
<description>Message Buffer 15 CS Register</description>
<addressOffset>0x170</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID15</name>
<description>Message Buffer 15 ID Register</description>
<addressOffset>0x174</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD015</name>
<description>Message Buffer 15 WORD0 Register</description>
<addressOffset>0x178</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD115</name>
<description>Message Buffer 15 WORD1 Register</description>
<addressOffset>0x17C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>RXIMR%s</name>
<description>Rx Individual Mask Registers</description>
<addressOffset>0x880</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>MI0</name>
<description>Individual Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI1</name>
<description>Individual Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI2</name>
<description>Individual Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI3</name>
<description>Individual Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI4</name>
<description>Individual Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI5</name>
<description>Individual Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI6</name>
<description>Individual Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI7</name>
<description>Individual Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI8</name>
<description>Individual Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI9</name>
<description>Individual Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI10</name>
<description>Individual Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI11</name>
<description>Individual Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI12</name>
<description>Individual Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI13</name>
<description>Individual Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI14</name>
<description>Individual Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI15</name>
<description>Individual Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI16</name>
<description>Individual Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI17</name>
<description>Individual Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI18</name>
<description>Individual Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI19</name>
<description>Individual Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI20</name>
<description>Individual Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI21</name>
<description>Individual Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI22</name>
<description>Individual Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI23</name>
<description>Individual Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI24</name>
<description>Individual Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI25</name>
<description>Individual Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI26</name>
<description>Individual Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI27</name>
<description>Individual Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI28</name>
<description>Individual Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI29</name>
<description>Individual Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI30</name>
<description>Individual Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI31</name>
<description>Individual Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>CAN1</name>
<description>Flex Controller Area Network module</description>
<groupName>CAN</groupName>
<prependToName>CAN1_</prependToName>
<baseAddress>0x40025000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x8C0</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>CAN1_ORed_Message_buffer</name>
<value>94</value>
</interrupt>
<interrupt>
<name>CAN1_Bus_Off</name>
<value>95</value>
</interrupt>
<interrupt>
<name>CAN1_Error</name>
<value>96</value>
</interrupt>
<interrupt>
<name>CAN1_Tx_Warning</name>
<value>97</value>
</interrupt>
<interrupt>
<name>CAN1_Rx_Warning</name>
<value>98</value>
</interrupt>
<interrupt>
<name>CAN1_Wake_Up</name>
<value>99</value>
</interrupt>
<registers>
<register>
<name>MCR</name>
<description>Module Configuration Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xD890000F</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MAXMB</name>
<description>Number Of The Last Message Buffer</description>
<bitOffset>0</bitOffset>
<bitWidth>7</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDAM</name>
<description>ID Acceptance Mode</description>
<bitOffset>8</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Format A: One full ID (standard and extended) per ID Filter Table element.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Format B: Two full standard IDs or two partial 14-bit (standard and extended) IDs per ID Filter Table element.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Format C: Four partial 8-bit Standard IDs per ID Filter Table element.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Format D: All frames rejected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AEN</name>
<description>Abort Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Abort disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Abort enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPRIOEN</name>
<description>Local Priority Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Local Priority disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Local Priority enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMA</name>
<description>DMA Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA feature for RX FIFO disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA feature for RX FIFO enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRMQ</name>
<description>Individual Rx Masking And Queue Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Individual Rx masking and queue feature are disabled. For backward compatibility with legacy applications, the reading of C/S word locks the MB even if it is EMPTY.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Individual Rx masking and queue feature are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRXDIS</name>
<description>Self Reception Disable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Self reception enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Self reception disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOZE</name>
<description>Doze Mode Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not enabled to enter low-power mode when Doze mode is requested.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is enabled to enter low-power mode when Doze mode is requested.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAKSRC</name>
<description>Wake Up Source</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN uses the unfiltered Rx input to detect recessive to dominant edges on the CAN bus.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN uses the filtered Rx input to detect recessive to dominant edges on the CAN bus.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPMACK</name>
<description>Low-Power Mode Acknowledge</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not in a low-power mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is in a low-power mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WRNEN</name>
<description>Warning Interrupt Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TWRNINT and RWRNINT bits are zero, independent of the values in the error counters.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TWRNINT and RWRNINT bits are set when the respective error counter transitions from less than 96 to greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLFWAK</name>
<description>Self Wake Up</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN Self Wake Up feature is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN Self Wake Up feature is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SUPV</name>
<description>Supervisor Mode</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is in User mode. Affected registers allow both Supervisor and Unrestricted accesses.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is in Supervisor mode. Affected registers allow only Supervisor access. Unrestricted access behaves as though the access was done to an unimplemented register location.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRZACK</name>
<description>Freeze Mode Acknowledge</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN not in Freeze mode, prescaler running.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN in Freeze mode, prescaler stopped.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SOFTRST</name>
<description>Soft Reset</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No reset request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Resets the registers affected by soft reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAKMSK</name>
<description>Wake Up Interrupt Mask</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Wake Up Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Wake Up Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOTRDY</name>
<description>FlexCAN Not Ready</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN module is either in Normal mode, Listen-Only mode or Loop-Back mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN module is either in Disable mode, Doze mode , Stop mode or Freeze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HALT</name>
<description>Halt FlexCAN</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No Freeze mode request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enters Freeze mode if the FRZ bit is asserted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RFEN</name>
<description>Rx FIFO Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Rx FIFO not enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Rx FIFO enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRZ</name>
<description>Freeze Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Not enabled to enter Freeze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled to enter Freeze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MDIS</name>
<description>Module Disable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Enable the FlexCAN module.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Disable the FlexCAN module.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CTRL1</name>
<description>Control 1 register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PROPSEG</name>
<description>Propagation Segment</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LOM</name>
<description>Listen-Only Mode</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Listen-Only mode is deactivated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN module operates in Listen-Only mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBUF</name>
<description>Lowest Buffer Transmitted First</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Buffer with highest priority is transmitted first.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Lowest number buffer is transmitted first.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TSYN</name>
<description>Timer Sync</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timer Sync feature disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timer Sync feature enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOFFREC</name>
<description>Bus Off Recovery</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Automatic recovering from Bus Off state enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Automatic recovering from Bus Off state disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SMP</name>
<description>CAN Bit Sampling</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Just one sample is used to determine the bit value.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Three samples are used to determine the value of the received bit: the regular one (sample point) and 2 preceding samples; a majority rule is used.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWRNMSK</name>
<description>Rx Warning Interrupt Mask</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Rx Warning Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Rx Warning Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWRNMSK</name>
<description>Tx Warning Interrupt Mask</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Tx Warning Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Tx Warning Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPB</name>
<description>Loop Back Mode</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Loop Back disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Loop Back enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLKSRC</name>
<description>CAN Engine Clock Source</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The CAN engine clock source is the oscillator clock. Under this condition, the oscillator clock frequency must be lower than the bus clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The CAN engine clock source is the peripheral clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERRMSK</name>
<description>Error Interrupt Mask</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Error interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Error interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOFFMSK</name>
<description>Bus Off Interrupt Mask</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bus Off interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bus Off interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PSEG2</name>
<description>Phase Segment 2</description>
<bitOffset>16</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PSEG1</name>
<description>Phase Segment 1</description>
<bitOffset>19</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RJW</name>
<description>Resync Jump Width</description>
<bitOffset>22</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRESDIV</name>
<description>Prescaler Division Factor</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TIMER</name>
<description>Free Running Timer</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIMER</name>
<description>Timer Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RXMGMASK</name>
<description>Rx Mailboxes Global Mask Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>MG0</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG1</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG2</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG3</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG4</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG5</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG6</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG7</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG8</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG9</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG10</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG11</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG12</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG13</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG14</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG15</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG16</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG17</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG18</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG19</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG20</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG21</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG22</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG23</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG24</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG25</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG26</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG27</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG28</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG29</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG30</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MG31</name>
<description>Rx Mailboxes Global Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RX14MASK</name>
<description>Rx 14 Mask register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>RX14M0</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M1</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M2</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M3</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M4</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M5</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M6</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M7</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M8</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M9</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M10</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M11</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M12</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M13</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M14</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M15</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M16</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M17</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M18</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M19</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M20</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M21</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M22</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M23</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M24</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M25</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M26</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M27</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M28</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M29</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M30</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX14M31</name>
<description>Rx Buffer 14 Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RX15MASK</name>
<description>Rx 15 Mask register</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>RX15M0</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M1</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M2</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M3</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M4</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M5</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M6</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M7</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M8</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M9</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M10</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M11</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M12</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M13</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M14</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M15</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M16</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M17</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M18</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M19</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M20</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M21</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M22</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M23</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M24</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M25</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M26</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M27</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M28</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M29</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M30</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX15M31</name>
<description>Rx Buffer 15 Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ECR</name>
<description>Error Counter</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXERRCNT</name>
<description>Transmit Error Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RXERRCNT</name>
<description>Receive Error Counter</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ESR1</name>
<description>Error and Status 1 register</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>WAKINT</name>
<description>Wake-Up Interrupt</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Indicates a recessive to dominant transition was received on the CAN bus.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERRINT</name>
<description>Error Interrupt</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Indicates setting of any Error Bit in the Error and Status Register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOFFINT</name>
<description>Bus Off Interrupt</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN module entered Bus Off state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RX</name>
<description>FlexCAN In Reception</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not receiving a message.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is receiving a message.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FLTCONF</name>
<description>Fault Confinement State</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Error Active</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Error Passive</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TX</name>
<description>FlexCAN In Transmission</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not transmitting a message.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is transmitting a message.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IDLE</name>
<description>This bit indicates when CAN bus is in IDLE state</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>CAN bus is now IDLE.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXWRN</name>
<description>Rx Error Warning</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXERRCNT is greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXWRN</name>
<description>TX Error Warning</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXERRCNT is greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STFERR</name>
<description>Stuffing Error</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A Stuffing Error occurred since last read of this register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRMERR</name>
<description>Form Error</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A Form Error occurred since last read of this register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRCERR</name>
<description>Cyclic Redundancy Check Error</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A CRC error occurred since last read of this register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACKERR</name>
<description>Acknowledge Error</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An ACK error occurred since last read of this register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BIT0ERR</name>
<description>Bit0 Error</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one bit sent as dominant is received as recessive.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BIT1ERR</name>
<description>Bit1 Error</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one bit sent as recessive is received as dominant.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWRNINT</name>
<description>Rx Warning Interrupt Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The Rx error counter transitioned from less than 96 to greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWRNINT</name>
<description>Tx Warning Interrupt Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The Tx error counter transitioned from less than 96 to greater than or equal to 96.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYNCH</name>
<description>CAN Synchronization Status</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexCAN is not synchronized to the CAN bus.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN is synchronized to the CAN bus.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOFFDONEINT</name>
<description>Bus Off Done Interrupt</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No such occurrence.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexCAN module has completed Bus Off process.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERROVR</name>
<description>Error Overrun bit</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Overrun has not occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Overrun has occured.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IMASK1</name>
<description>Interrupt Masks 1 register</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>BUF31TO0M0</name>
<description>Buffer MB i Mask</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M1</name>
<description>Buffer MB i Mask</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M2</name>
<description>Buffer MB i Mask</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M3</name>
<description>Buffer MB i Mask</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M4</name>
<description>Buffer MB i Mask</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M5</name>
<description>Buffer MB i Mask</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M6</name>
<description>Buffer MB i Mask</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M7</name>
<description>Buffer MB i Mask</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M8</name>
<description>Buffer MB i Mask</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M9</name>
<description>Buffer MB i Mask</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M10</name>
<description>Buffer MB i Mask</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M11</name>
<description>Buffer MB i Mask</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M12</name>
<description>Buffer MB i Mask</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M13</name>
<description>Buffer MB i Mask</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M14</name>
<description>Buffer MB i Mask</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M15</name>
<description>Buffer MB i Mask</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M16</name>
<description>Buffer MB i Mask</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M17</name>
<description>Buffer MB i Mask</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M18</name>
<description>Buffer MB i Mask</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M19</name>
<description>Buffer MB i Mask</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M20</name>
<description>Buffer MB i Mask</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M21</name>
<description>Buffer MB i Mask</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M22</name>
<description>Buffer MB i Mask</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M23</name>
<description>Buffer MB i Mask</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M24</name>
<description>Buffer MB i Mask</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M25</name>
<description>Buffer MB i Mask</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M26</name>
<description>Buffer MB i Mask</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M27</name>
<description>Buffer MB i Mask</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M28</name>
<description>Buffer MB i Mask</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M29</name>
<description>Buffer MB i Mask</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M30</name>
<description>Buffer MB i Mask</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO0M31</name>
<description>Buffer MB i Mask</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IFLAG1</name>
<description>Interrupt Flags 1 register</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>BUF0I</name>
<description>Buffer MB0 Interrupt Or Clear FIFO bit</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF4TO1I0</name>
<description>Buffer MB i Interrupt Or &quot;reserved&quot;</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF4TO1I1</name>
<description>Buffer MB i Interrupt Or &quot;reserved&quot;</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF4TO1I2</name>
<description>Buffer MB i Interrupt Or &quot;reserved&quot;</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF4TO1I3</name>
<description>Buffer MB i Interrupt Or &quot;reserved&quot;</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception when MCR[RFEN]=0.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF5I</name>
<description>Buffer MB5 Interrupt Or &quot;Frames available in Rx FIFO&quot;</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No occurrence of MB5 completing transmission/reception when MCR[RFEN]=0, or of frame(s) available in the FIFO, when MCR[RFEN]=1</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MB5 completed transmission/reception when MCR[RFEN]=0, or frame(s) available in the Rx FIFO when MCR[RFEN]=1. It generates a DMA request in case of MCR[RFEN] and MCR[DMA] are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF6I</name>
<description>Buffer MB6 Interrupt Or &quot;Rx FIFO Warning&quot;</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No occurrence of MB6 completing transmission/reception when MCR[RFEN]=0, or of Rx FIFO almost full when MCR[RFEN]=1</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MB6 completed transmission/reception when MCR[RFEN]=0, or Rx FIFO almost full when MCR[RFEN]=1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF7I</name>
<description>Buffer MB7 Interrupt Or &quot;Rx FIFO Overflow&quot;</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No occurrence of MB7 completing transmission/reception when MCR[RFEN]=0, or of Rx FIFO overflow when MCR[RFEN]=1</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MB7 completed transmission/reception when MCR[RFEN]=0, or Rx FIFO overflow when MCR[RFEN]=1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I0</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I1</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I2</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I3</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I4</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I5</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I6</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I7</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I8</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I9</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I10</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I11</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I12</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I13</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I14</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I15</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I16</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I17</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I18</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I19</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I20</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I21</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I22</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUF31TO8I23</name>
<description>Buffer MBi Interrupt</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding buffer has no occurrence of successfully completed transmission or reception.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding buffer has successfully completed transmission or reception.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CTRL2</name>
<description>Control 2 register</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xB00000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EACEN</name>
<description>Entire Frame Arbitration Field Comparison Enable For Rx Mailboxes</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Rx Mailbox filter&apos;s IDE bit is always compared and RTR is never compared despite mask bits.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the comparison of both Rx Mailbox filter&apos;s IDE and RTR bit with their corresponding bits within the incoming frame. Mask bits do apply.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RRS</name>
<description>Remote Request Storing</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Remote Response Frame is generated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Remote Request Frame is stored.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MRP</name>
<description>Mailboxes Reception Priority</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Matching starts from Rx FIFO and continues on Mailboxes.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Matching starts from Mailboxes and continues on Rx FIFO.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TASD</name>
<description>Tx Arbitration Start Delay</description>
<bitOffset>19</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RFFN</name>
<description>Number Of Rx FIFO Filters</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BOFFDONEMSK</name>
<description>Bus Off Done Interrupt Mask</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bus Off Done interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bus Off Done interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ESR2</name>
<description>Error and Status 2 register</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>IMB</name>
<description>Inactive Mailbox</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If ESR2[VPS] is asserted, the ESR2[LPTM] is not an inactive Mailbox.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If ESR2[VPS] is asserted, there is at least one inactive Mailbox. LPTM content is the number of the first one.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VPS</name>
<description>Valid Priority Status</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Contents of IMB and LPTM are invalid.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Contents of IMB and LPTM are valid.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPTM</name>
<description>Lowest Priority Tx Mailbox</description>
<bitOffset>16</bitOffset>
<bitWidth>7</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>CRCR</name>
<description>CRC Register</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXCRC</name>
<description>Transmitted CRC value</description>
<bitOffset>0</bitOffset>
<bitWidth>15</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MBCRC</name>
<description>CRC Mailbox</description>
<bitOffset>16</bitOffset>
<bitWidth>7</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RXFGMASK</name>
<description>Rx FIFO Global Mask register</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>FGM0</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM1</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM2</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM3</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM4</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM5</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM6</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM7</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM8</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM9</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM10</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM11</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM12</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM13</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM14</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM15</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM16</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM17</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM18</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM19</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM20</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM21</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM22</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM23</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM24</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM25</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM26</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM27</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM28</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM29</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM30</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FGM31</name>
<description>Rx FIFO Global Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RXFIR</name>
<description>Rx FIFO Information Register</description>
<addressOffset>0x4C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>IDHIT</name>
<description>Identifier Acceptance Filter Hit Indicator</description>
<bitOffset>0</bitOffset>
<bitWidth>9</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>CBT</name>
<description>CAN Bit Timing Register</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EPSEG2</name>
<description>Extended Phase Segment 2</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPSEG1</name>
<description>Extended Phase Segment 1</description>
<bitOffset>5</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPROPSEG</name>
<description>Extended Propagation Segment</description>
<bitOffset>10</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ERJW</name>
<description>Extended Resync Jump Width</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPRESDIV</name>
<description>Extended Prescaler Division Factor</description>
<bitOffset>21</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BTF</name>
<description>Bit Timing Format Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Extended bit time definitions disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Extended bit time definitions enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CS0</name>
<description>Message Buffer 0 CS Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID0</name>
<description>Message Buffer 0 ID Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD00</name>
<description>Message Buffer 0 WORD0 Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD10</name>
<description>Message Buffer 0 WORD1 Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS1</name>
<description>Message Buffer 1 CS Register</description>
<addressOffset>0x90</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID1</name>
<description>Message Buffer 1 ID Register</description>
<addressOffset>0x94</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD01</name>
<description>Message Buffer 1 WORD0 Register</description>
<addressOffset>0x98</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD11</name>
<description>Message Buffer 1 WORD1 Register</description>
<addressOffset>0x9C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS2</name>
<description>Message Buffer 2 CS Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID2</name>
<description>Message Buffer 2 ID Register</description>
<addressOffset>0xA4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD02</name>
<description>Message Buffer 2 WORD0 Register</description>
<addressOffset>0xA8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD12</name>
<description>Message Buffer 2 WORD1 Register</description>
<addressOffset>0xAC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS3</name>
<description>Message Buffer 3 CS Register</description>
<addressOffset>0xB0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID3</name>
<description>Message Buffer 3 ID Register</description>
<addressOffset>0xB4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD03</name>
<description>Message Buffer 3 WORD0 Register</description>
<addressOffset>0xB8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD13</name>
<description>Message Buffer 3 WORD1 Register</description>
<addressOffset>0xBC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS4</name>
<description>Message Buffer 4 CS Register</description>
<addressOffset>0xC0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID4</name>
<description>Message Buffer 4 ID Register</description>
<addressOffset>0xC4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD04</name>
<description>Message Buffer 4 WORD0 Register</description>
<addressOffset>0xC8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD14</name>
<description>Message Buffer 4 WORD1 Register</description>
<addressOffset>0xCC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS5</name>
<description>Message Buffer 5 CS Register</description>
<addressOffset>0xD0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID5</name>
<description>Message Buffer 5 ID Register</description>
<addressOffset>0xD4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD05</name>
<description>Message Buffer 5 WORD0 Register</description>
<addressOffset>0xD8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD15</name>
<description>Message Buffer 5 WORD1 Register</description>
<addressOffset>0xDC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS6</name>
<description>Message Buffer 6 CS Register</description>
<addressOffset>0xE0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID6</name>
<description>Message Buffer 6 ID Register</description>
<addressOffset>0xE4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD06</name>
<description>Message Buffer 6 WORD0 Register</description>
<addressOffset>0xE8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD16</name>
<description>Message Buffer 6 WORD1 Register</description>
<addressOffset>0xEC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS7</name>
<description>Message Buffer 7 CS Register</description>
<addressOffset>0xF0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID7</name>
<description>Message Buffer 7 ID Register</description>
<addressOffset>0xF4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD07</name>
<description>Message Buffer 7 WORD0 Register</description>
<addressOffset>0xF8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD17</name>
<description>Message Buffer 7 WORD1 Register</description>
<addressOffset>0xFC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS8</name>
<description>Message Buffer 8 CS Register</description>
<addressOffset>0x100</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID8</name>
<description>Message Buffer 8 ID Register</description>
<addressOffset>0x104</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD08</name>
<description>Message Buffer 8 WORD0 Register</description>
<addressOffset>0x108</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD18</name>
<description>Message Buffer 8 WORD1 Register</description>
<addressOffset>0x10C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS9</name>
<description>Message Buffer 9 CS Register</description>
<addressOffset>0x110</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID9</name>
<description>Message Buffer 9 ID Register</description>
<addressOffset>0x114</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD09</name>
<description>Message Buffer 9 WORD0 Register</description>
<addressOffset>0x118</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD19</name>
<description>Message Buffer 9 WORD1 Register</description>
<addressOffset>0x11C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS10</name>
<description>Message Buffer 10 CS Register</description>
<addressOffset>0x120</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID10</name>
<description>Message Buffer 10 ID Register</description>
<addressOffset>0x124</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD010</name>
<description>Message Buffer 10 WORD0 Register</description>
<addressOffset>0x128</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD110</name>
<description>Message Buffer 10 WORD1 Register</description>
<addressOffset>0x12C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS11</name>
<description>Message Buffer 11 CS Register</description>
<addressOffset>0x130</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID11</name>
<description>Message Buffer 11 ID Register</description>
<addressOffset>0x134</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD011</name>
<description>Message Buffer 11 WORD0 Register</description>
<addressOffset>0x138</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD111</name>
<description>Message Buffer 11 WORD1 Register</description>
<addressOffset>0x13C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS12</name>
<description>Message Buffer 12 CS Register</description>
<addressOffset>0x140</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID12</name>
<description>Message Buffer 12 ID Register</description>
<addressOffset>0x144</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD012</name>
<description>Message Buffer 12 WORD0 Register</description>
<addressOffset>0x148</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD112</name>
<description>Message Buffer 12 WORD1 Register</description>
<addressOffset>0x14C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS13</name>
<description>Message Buffer 13 CS Register</description>
<addressOffset>0x150</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID13</name>
<description>Message Buffer 13 ID Register</description>
<addressOffset>0x154</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD013</name>
<description>Message Buffer 13 WORD0 Register</description>
<addressOffset>0x158</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD113</name>
<description>Message Buffer 13 WORD1 Register</description>
<addressOffset>0x15C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS14</name>
<description>Message Buffer 14 CS Register</description>
<addressOffset>0x160</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID14</name>
<description>Message Buffer 14 ID Register</description>
<addressOffset>0x164</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD014</name>
<description>Message Buffer 14 WORD0 Register</description>
<addressOffset>0x168</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD114</name>
<description>Message Buffer 14 WORD1 Register</description>
<addressOffset>0x16C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CS15</name>
<description>Message Buffer 15 CS Register</description>
<addressOffset>0x170</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIME_STAMP</name>
<description>Free-Running Counter Time stamp. This 16-bit field is a copy of the Free-Running Timer, captured for Tx and Rx frames at the time when the beginning of the Identifier field appears on the CAN bus.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLC</name>
<description>Length of the data to be stored/transmitted.</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RTR</name>
<description>Remote Transmission Request. One/zero for remote/data frame.</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDE</name>
<description>ID Extended. One/zero for extended/standard format frame.</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SRR</name>
<description>Substitute Remote Request. Contains a fixed recessive bit.</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CODE</name>
<description>Reserved</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ID15</name>
<description>Message Buffer 15 ID Register</description>
<addressOffset>0x174</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT</name>
<description>Contains extended (LOW word) identifier of message buffer.</description>
<bitOffset>0</bitOffset>
<bitWidth>18</bitWidth>
<access>read-write</access>
</field>
<field>
<name>STD</name>
<description>Contains standard/extended (HIGH word) identifier of message buffer.</description>
<bitOffset>18</bitOffset>
<bitWidth>11</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRIO</name>
<description>Local priority. This 3-bit fieldis only used when LPRIO_EN bit is set in MCR and it only makes sense for Tx buffers. These bits are not transmitted. They are appended to the regular ID to define the transmission priority.</description>
<bitOffset>29</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD015</name>
<description>Message Buffer 15 WORD0 Register</description>
<addressOffset>0x178</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_3</name>
<description>Data byte 3 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_2</name>
<description>Data byte 2 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_1</name>
<description>Data byte 1 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_0</name>
<description>Data byte 0 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WORD115</name>
<description>Message Buffer 15 WORD1 Register</description>
<addressOffset>0x17C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA_BYTE_7</name>
<description>Data byte 7 of Rx/Tx frame.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_6</name>
<description>Data byte 6 of Rx/Tx frame.</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_5</name>
<description>Data byte 5 of Rx/Tx frame.</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATA_BYTE_4</name>
<description>Data byte 4 of Rx/Tx frame.</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>RXIMR%s</name>
<description>Rx Individual Mask Registers</description>
<addressOffset>0x880</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>MI0</name>
<description>Individual Mask Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI1</name>
<description>Individual Mask Bits</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI2</name>
<description>Individual Mask Bits</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI3</name>
<description>Individual Mask Bits</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI4</name>
<description>Individual Mask Bits</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI5</name>
<description>Individual Mask Bits</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI6</name>
<description>Individual Mask Bits</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI7</name>
<description>Individual Mask Bits</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI8</name>
<description>Individual Mask Bits</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI9</name>
<description>Individual Mask Bits</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI10</name>
<description>Individual Mask Bits</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI11</name>
<description>Individual Mask Bits</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI12</name>
<description>Individual Mask Bits</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI13</name>
<description>Individual Mask Bits</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI14</name>
<description>Individual Mask Bits</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI15</name>
<description>Individual Mask Bits</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI16</name>
<description>Individual Mask Bits</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI17</name>
<description>Individual Mask Bits</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI18</name>
<description>Individual Mask Bits</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI19</name>
<description>Individual Mask Bits</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI20</name>
<description>Individual Mask Bits</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI21</name>
<description>Individual Mask Bits</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI22</name>
<description>Individual Mask Bits</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI23</name>
<description>Individual Mask Bits</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI24</name>
<description>Individual Mask Bits</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI25</name>
<description>Individual Mask Bits</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI26</name>
<description>Individual Mask Bits</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI27</name>
<description>Individual Mask Bits</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI28</name>
<description>Individual Mask Bits</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI29</name>
<description>Individual Mask Bits</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI30</name>
<description>Individual Mask Bits</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MI31</name>
<description>Individual Mask Bits</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The corresponding bit in the filter is &quot;don&apos;t care.&quot;</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The corresponding bit in the filter is checked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>RNG</name>
<description>Random Number Generator Accelerator</description>
<prependToName>RNG_</prependToName>
<baseAddress>0x40029000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x10</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>RNG</name>
<value>23</value>
</interrupt>
<registers>
<register>
<name>CR</name>
<description>RNGA Control Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GO</name>
<description>Go</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HA</name>
<description>High Assurance</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INTM</name>
<description>Interrupt Mask</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Not masked</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Masked</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLRI</name>
<description>Clear Interrupt</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not clear the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear the interrupt. When you write 1 to this field, RNGA then resets the error-interrupt indicator (SR[ERRI]). This bit always reads as 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLP</name>
<description>Sleep</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sleep (low-power) mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SR</name>
<description>RNGA Status Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x10000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SECV</name>
<description>Security Violation</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No security violation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Security violation</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LRS</name>
<description>Last Read Status</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No underflow</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Underflow</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ORU</name>
<description>Output Register Underflow</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No underflow</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Underflow</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERRI</name>
<description>Error Interrupt</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No underflow</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Underflow</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLP</name>
<description>Sleep</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sleep (low-power) mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OREG_LVL</name>
<description>Output Register Level</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No words (empty)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>One word (valid)</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OREG_SIZE</name>
<description>Output Register Size</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>1</name>
<description>One word (this value is fixed)</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ER</name>
<description>RNGA Entropy Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EXT_ENT</name>
<description>External Entropy</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>OR</name>
<description>RNGA Output Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RANDOUT</name>
<description>Random Output</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Invalid data (if you read this field when it is 0 and SR[OREG_LVL] is 0, RNGA then writes 1 to SR[ERRI], SR[ORU], and SR[LRS]; when the error interrupt is not masked (CR[INTM]=0), RNGA also asserts an error interrupt request to the interrupt controller).</description>
<value>#0</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>LPUART0</name>
<description>Universal Asynchronous Receiver/Transmitter</description>
<prependToName>LPUART0_</prependToName>
<baseAddress>0x4002A000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x18</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>LPUART0</name>
<value>30</value>
</interrupt>
<registers>
<register>
<name>BAUD</name>
<description>LPUART Baud Rate Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xF000004</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SBR</name>
<description>Baud Rate Modulo Divisor.</description>
<bitOffset>0</bitOffset>
<bitWidth>13</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SBNS</name>
<description>Stop Bit Number Select</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>One stop bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Two stop bits.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEDGIE</name>
<description>RX Input Active Edge Interrupt Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from LPUART_STAT[RXEDGIF] disabled (use polling).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when LPUART_STAT[RXEDGIF] flag is 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDIE</name>
<description>LIN Break Detect Interrupt Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from LPUART_STAT[LBKDIF] disabled (use polling).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when LPUART_STAT[LBKDIF] flag is 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RESYNCDIS</name>
<description>Resynchronization Disable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Resynchronization during received data word is supported</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Resynchronization during received data word is disabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BOTHEDGE</name>
<description>Both Edge Sampling</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver samples input data using the rising edge of the baud rate clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver samples input data using the rising and falling edge of the baud rate clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MATCFG</name>
<description>Match Configuration</description>
<bitOffset>18</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Address Match Wakeup</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Idle Match Wakeup</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Match On and Match Off</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Enables RWU on Data Match and Match On/Off for transmitter CTS input</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDMAE</name>
<description>Receiver Full DMA Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TDMAE</name>
<description>Transmitter DMA Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OSR</name>
<description>Oversampling Ratio</description>
<bitOffset>24</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>M10</name>
<description>10-bit Mode select</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver and transmitter use 8-bit or 9-bit data characters.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver and transmitter use 10-bit data characters.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAEN2</name>
<description>Match Address Mode Enable 2</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables automatic address matching or data matching mode for MATCH[MA2].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAEN1</name>
<description>Match Address Mode Enable 1</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables automatic address matching or data matching mode for MATCH[MA1].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STAT</name>
<description>LPUART Status Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xC00000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MA2F</name>
<description>Match 2 Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Received data is not equal to MA2</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Received data is equal to MA2</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MA1F</name>
<description>Match 1 Flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Received data is not equal to MA1</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Received data is equal to MA1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PF</name>
<description>Parity Error Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No parity error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Parity error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FE</name>
<description>Framing Error Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No framing error detected. This does not guarantee the framing is correct.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Framing error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NF</name>
<description>Noise Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No noise detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Noise detected in the received character in LPUART_DATA.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OR</name>
<description>Receiver Overrun Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No overrun.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive overrun (new LPUART data lost).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IDLE</name>
<description>Idle Line Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No idle line detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Idle line was detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDRF</name>
<description>Receive Data Register Full Flag</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive data buffer empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data buffer full.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TC</name>
<description>Transmission Complete Flag</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter active (sending data, a preamble, or a break).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter idle (transmission activity complete).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TDRE</name>
<description>Transmit Data Register Empty Flag</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data buffer full.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data buffer empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RAF</name>
<description>Receiver Active Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LPUART receiver idle waiting for a start bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPUART receiver active (LPUART_RX input not idle).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDE</name>
<description>LIN Break Detection Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Break character is detected at length 10 bit times (if M = 0, SBNS = 0) or 11 (if M = 1, SBNS = 0 or M = 0, SBNS = 1) or 12 (if M = 1, SBNS = 1 or M10 = 1, SNBS = 0) or 13 (if M10 = 1, SNBS = 1).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Break character is detected at length of 11 bit times (if M = 0, SBNS = 0) or 12 (if M = 1, SBNS = 0 or M = 0, SBNS = 1) or 14 (if M = 1, SBNS = 1 or M10 = 1, SNBS = 0) or 15 (if M10 = 1, SNBS = 1).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BRK13</name>
<description>Break Character Generation Length</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Break character is transmitted with length of 10 bit times (if M = 0, SBNS = 0) or 11 (if M = 1, SBNS = 0 or M = 0, SBNS = 1) or 12 (if M = 1, SBNS = 1 or M10 = 1, SNBS = 0) or 13 (if M10 = 1, SNBS = 1).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Break character is transmitted with length of 13 bit times (if M = 0, SBNS = 0) or 14 (if M = 1, SBNS = 0 or M = 0, SBNS = 1) or 15 (if M = 1, SBNS = 1 or M10 = 1, SNBS = 0) or 16 (if M10 = 1, SNBS = 1).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWUID</name>
<description>Receive Wake Up Idle Detect</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>During receive standby state (RWU = 1), the IDLE bit does not get set upon detection of an idle character. During address match wakeup, the IDLE bit does not get set when an address does not match.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>During receive standby state (RWU = 1), the IDLE bit gets set upon detection of an idle character. During address match wakeup, the IDLE bit does get set when an address does not match.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXINV</name>
<description>Receive Data Inversion</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive data not inverted.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data inverted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSBF</name>
<description>MSB First</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LSB (bit0) is the first bit that is transmitted following the start bit. Further, the first bit received after the start bit is identified as bit0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MSB (bit9, bit8, bit7 or bit6) is the first bit that is transmitted following the start bit depending on the setting of CTRL[M], CTRL[PE] and BAUD[M10]. Further, the first bit received after the start bit is identified as bit9, bit8, bit7 or bit6 depending on the setting of CTRL[M] and CTRL[PE].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEDGIF</name>
<description>LPUART_RX Pin Active Edge Interrupt Flag</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No active edge on the receive pin has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An active edge on the receive pin has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDIF</name>
<description>LIN Break Detect Interrupt Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No LIN break character has been detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LIN break character has been detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CTRL</name>
<description>LPUART Control Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PT</name>
<description>Parity Type</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even parity.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd parity.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Parity Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No hardware parity generation or checking.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Parity enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ILT</name>
<description>Idle Line Type Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Idle character bit count starts after start bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Idle character bit count starts after stop bit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAKE</name>
<description>Receiver Wakeup Method Select</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configures RWU for idle-line wakeup.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configures RWU with address-mark wakeup.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M</name>
<description>9-Bit or 8-Bit Mode Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver and transmitter use 8-bit data characters.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver and transmitter use 9-bit data characters.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSRC</name>
<description>Receiver Source Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Provided LOOPS is set, RSRC is cleared, selects internal loop back mode and the LPUART does not use the LPUART_RX pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Single-wire LPUART mode where the LPUART_TX pin is connected to the transmitter output and receiver input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOZEEN</name>
<description>Doze Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LPUART is enabled in Doze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPUART is disabled in Doze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOOPS</name>
<description>Loop Mode Select</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation - LPUART_RX and LPUART_TX use separate pins.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Loop mode or single-wire mode where transmitter outputs are internally connected to receiver input (see RSRC bit).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IDLECFG</name>
<description>Idle Configuration</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>1 idle character</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>2 idle characters</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>4 idle characters</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>8 idle characters</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>16 idle characters</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>32 idle characters</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>64 idle characters</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>128 idle characters</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MA2IE</name>
<description>Match 2 Interrupt Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MA2F interrupt disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MA2F interrupt enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MA1IE</name>
<description>Match 1 Interrupt Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MA1F interrupt disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MA1F interrupt enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SBK</name>
<description>Send Break</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal transmitter operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Queue break character(s) to be sent.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWU</name>
<description>Receiver Wakeup Control</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal receiver operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPUART receiver in standby waiting for wakeup condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RE</name>
<description>Receiver Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TE</name>
<description>Transmitter Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ILIE</name>
<description>Idle Line Interrupt Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from IDLE disabled; use polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when IDLE flag is 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RIE</name>
<description>Receiver Interrupt Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from RDRF disabled; use polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when RDRF flag is 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCIE</name>
<description>Transmission Complete Interrupt Enable for</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from TC disabled; use polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when TC flag is 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIE</name>
<description>Transmit Interrupt Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from TDRE disabled; use polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when TDRE flag is 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PEIE</name>
<description>Parity Error Interrupt Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PF interrupts disabled; use polling).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when PF is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>Framing Error Interrupt Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FE interrupts disabled; use polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when FE is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NEIE</name>
<description>Noise Error Interrupt Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>NF interrupts disabled; use polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when NF is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ORIE</name>
<description>Overrun Interrupt Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>OR interrupts disabled; use polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware interrupt requested when OR is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXINV</name>
<description>Transmit Data Inversion</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data not inverted.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data inverted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXDIR</name>
<description>LPUART_TX Pin Direction in Single-Wire Mode</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LPUART_TX pin is an input in single-wire mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPUART_TX pin is an output in single-wire mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>R9T8</name>
<description>Receive Bit 9 / Transmit Bit 8</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R8T9</name>
<description>Receive Bit 8 / Transmit Bit 9</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DATA</name>
<description>LPUART Data Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x1000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>R0T0</name>
<description>Read receive data buffer 0 or write transmit data buffer 0.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R1T1</name>
<description>Read receive data buffer 1 or write transmit data buffer 1.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R2T2</name>
<description>Read receive data buffer 2 or write transmit data buffer 2.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R3T3</name>
<description>Read receive data buffer 3 or write transmit data buffer 3.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R4T4</name>
<description>Read receive data buffer 4 or write transmit data buffer 4.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R5T5</name>
<description>Read receive data buffer 5 or write transmit data buffer 5.</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R6T6</name>
<description>Read receive data buffer 6 or write transmit data buffer 6.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R7T7</name>
<description>Read receive data buffer 7 or write transmit data buffer 7.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R8T8</name>
<description>Read receive data buffer 8 or write transmit data buffer 8.</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R9T9</name>
<description>Read receive data buffer 9 or write transmit data buffer 9.</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>IDLINE</name>
<description>Idle Line</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver was not idle before receiving this character.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver was idle before receiving this character.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEMPT</name>
<description>Receive Buffer Empty</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive buffer contains valid data.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive buffer is empty, data returned on read is not valid.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRETSC</name>
<description>Frame Error / Transmit Special Character</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without a frame error on read, transmit a normal character on write.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The dataword was received with a frame error, transmit an idle or break character on transmit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PARITYE</name>
<description>The current received dataword contained in DATA[R9:R0] was received with a parity error.</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without a parity error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The dataword was received with a parity error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOISY</name>
<description>The current received dataword contained in DATA[R9:R0] was received with noise.</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without noise.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The data was received with noise.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MATCH</name>
<description>LPUART Match Address Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MA1</name>
<description>Match Address 1</description>
<bitOffset>0</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MA2</name>
<description>Match Address 2</description>
<bitOffset>16</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MODIR</name>
<description>LPUART Modem IrDA Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXCTSE</name>
<description>Transmitter clear-to-send enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>CTS has no effect on the transmitter.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables clear-to-send operation. The transmitter checks the state of CTS each time it is ready to send a character. If CTS is asserted, the character is sent. If CTS is deasserted, the signal TXD remains in the mark state and transmission is delayed until CTS is asserted. Changes in CTS as a character is being sent do not affect its transmission.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRTSE</name>
<description>Transmitter request-to-send enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The transmitter has no effect on RTS.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>When a character is placed into an empty transmitter data buffer , RTS asserts one bit time before the start bit is transmitted. RTS deasserts one bit time after all characters in the transmitter data buffer and shift register are completely sent, including the last stop bit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRTSPOL</name>
<description>Transmitter request-to-send polarity</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter RTS is active low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter RTS is active high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXRTSE</name>
<description>Receiver request-to-send enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The receiver has no effect on RTS.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RTS is deasserted if the receiver data register is full or a start bit has been detected that would cause the receiver data register to become full. RTS is asserted if the receiver data register is not full and has not detected a start bit that would cause the receiver data register to become full.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXCTSC</name>
<description>Transmit CTS Configuration</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>CTS input is sampled at the start of each character.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>CTS input is sampled when the transmitter is idle.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXCTSSRC</name>
<description>Transmit CTS Source</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>CTS input is the LPUART_CTS pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>CTS input is the inverted Receiver Match result.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TNP</name>
<description>Transmitter narrow pulse</description>
<bitOffset>16</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>1/OSR.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>2/OSR.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>3/OSR.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>4/OSR.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IREN</name>
<description>Infrared enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IR disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>IR enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>SPI0</name>
<description>Serial Peripheral Interface</description>
<groupName>SPI</groupName>
<prependToName>SPI0_</prependToName>
<baseAddress>0x4002C000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x8C</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>SPI0</name>
<value>26</value>
</interrupt>
<registers>
<register>
<name>MCR</name>
<description>Module Configuration Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x4001</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>HALT</name>
<description>Halt</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Start transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Stop transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SMPL_PT</name>
<description>Sample Point</description>
<bitOffset>8</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>0 protocol clock cycles between SCK edge and SIN sample</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>1 protocol clock cycle between SCK edge and SIN sample</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>2 protocol clock cycles between SCK edge and SIN sample</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLR_RXF</name>
<description>CLR_RXF</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not clear the RX FIFO counter.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear the RX FIFO counter.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLR_TXF</name>
<description>Clear TX FIFO</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not clear the TX FIFO counter.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear the TX FIFO counter.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DIS_RXF</name>
<description>Disable Receive FIFO</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RX FIFO is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RX FIFO is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DIS_TXF</name>
<description>Disable Transmit FIFO</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TX FIFO is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TX FIFO is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MDIS</name>
<description>Module Disable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Enables the module clocks.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Allows external logic to disable the module clocks.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOZE</name>
<description>Doze Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Doze mode has no effect on the module.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Doze mode disables the module.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS0</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS1</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS2</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS3</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS4</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS5</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ROOE</name>
<description>Receive FIFO Overflow Overwrite Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Incoming data is ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Incoming data is shifted into the shift register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSSE</name>
<description>Peripheral Chip Select Strobe Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PCS5/ PCSS is used as the Peripheral Chip Select[5] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PCS5/ PCSS is used as an active-low PCS Strobe signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MTFE</name>
<description>Modified Transfer Format Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Modified SPI transfer format disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Modified SPI transfer format enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRZ</name>
<description>Freeze</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not halt serial transfers in Debug mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Halt serial transfers in Debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DCONF</name>
<description>SPI Configuration.</description>
<bitOffset>28</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>SPI</description>
<value>#00</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CONT_SCKE</name>
<description>Continuous SCK Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Continuous SCK disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Continuous SCK enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSTR</name>
<description>Master/Slave Mode Select</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Enables Slave mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables Master mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR</name>
<description>Transfer Count Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SPI_TCNT</name>
<description>SPI Transfer Counter</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>2</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1</dimIndex>
<name>CTAR%s</name>
<description>Clock and Transfer Attributes Register (In Master Mode)</description>
<alternateGroup>SPI0</alternateGroup>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x78000000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>BR</name>
<description>Baud Rate Scaler</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DT</name>
<description>Delay After Transfer Scaler</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ASC</name>
<description>After SCK Delay Scaler</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CSSCK</name>
<description>PCS to SCK Delay Scaler</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PBR</name>
<description>Baud Rate Prescaler</description>
<bitOffset>16</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Baud Rate Prescaler value is 2.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Baud Rate Prescaler value is 3.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Baud Rate Prescaler value is 5.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Baud Rate Prescaler value is 7.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDT</name>
<description>Delay after Transfer Prescaler</description>
<bitOffset>18</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Delay after Transfer Prescaler value is 1.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Delay after Transfer Prescaler value is 3.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Delay after Transfer Prescaler value is 5.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Delay after Transfer Prescaler value is 7.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PASC</name>
<description>After SCK Delay Prescaler</description>
<bitOffset>20</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Delay after Transfer Prescaler value is 1.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Delay after Transfer Prescaler value is 3.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Delay after Transfer Prescaler value is 5.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Delay after Transfer Prescaler value is 7.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSSCK</name>
<description>PCS to SCK Delay Prescaler</description>
<bitOffset>22</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>PCS to SCK Prescaler value is 1.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>PCS to SCK Prescaler value is 3.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>PCS to SCK Prescaler value is 5.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>PCS to SCK Prescaler value is 7.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LSBFE</name>
<description>LSB First</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data is transferred MSB first.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data is transferred LSB first.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPHA</name>
<description>Clock Phase</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data is captured on the leading edge of SCK and changed on the following edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data is changed on the leading edge of SCK and captured on the following edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOL</name>
<description>Clock Polarity</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state value of SCK is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state value of SCK is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FMSZ</name>
<description>Frame Size</description>
<bitOffset>27</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DBR</name>
<description>Double Baud Rate</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The baud rate is computed normally with a 50/50 duty cycle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The baud rate is doubled with the duty cycle depending on the Baud Rate Prescaler.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CTAR_SLAVE</name>
<description>Clock and Transfer Attributes Register (In Slave Mode)</description>
<alternateGroup>SPI0</alternateGroup>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x78000000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CPHA</name>
<description>Clock Phase</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data is captured on the leading edge of SCK and changed on the following edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data is changed on the leading edge of SCK and captured on the following edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOL</name>
<description>Clock Polarity</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state value of SCK is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state value of SCK is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FMSZ</name>
<description>Frame Size</description>
<bitOffset>27</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SR</name>
<description>Status Register</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x2000000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>POPNXTPTR</name>
<description>Pop Next Pointer</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RXCTR</name>
<description>RX FIFO Counter</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TXNXTPTR</name>
<description>Transmit Next Pointer</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TXCTR</name>
<description>TX FIFO Counter</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RFDF</name>
<description>Receive FIFO Drain Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RX FIFO is empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RX FIFO is not empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RFOF</name>
<description>Receive FIFO Overflow Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No Rx FIFO overflow.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Rx FIFO overflow has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFFF</name>
<description>Transmit FIFO Fill Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TX FIFO is full.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TX FIFO is not full.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFUF</name>
<description>Transmit FIFO Underflow Flag</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No TX FIFO underflow.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TX FIFO underflow has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EOQF</name>
<description>End of Queue Flag</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>EOQ is not set in the executing command.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>EOQ is set in the executing SPI command.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRXS</name>
<description>TX and RX Status</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit and receive operations are disabled (The module is in Stopped state).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit and receive operations are enabled (The module is in Running state).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCF</name>
<description>Transfer Complete Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transfer not complete.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transfer complete.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RSER</name>
<description>DMA/Interrupt Request Select and Enable Register</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RFDF_DIRS</name>
<description>Receive FIFO Drain DMA or Interrupt Request Select</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RFDF_RE</name>
<description>Receive FIFO Drain Request Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RFDF interrupt or DMA requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RFDF interrupt or DMA requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RFOF_RE</name>
<description>Receive FIFO Overflow Request Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RFOF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RFOF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFFF_DIRS</name>
<description>Transmit FIFO Fill DMA or Interrupt Request Select</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TFFF flag generates interrupt requests.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TFFF flag generates DMA requests.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFFF_RE</name>
<description>Transmit FIFO Fill Request Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TFFF interrupts or DMA requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TFFF interrupts or DMA requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFUF_RE</name>
<description>Transmit FIFO Underflow Request Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TFUF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TFUF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EOQF_RE</name>
<description>Finished Request Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>EOQF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>EOQF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCF_RE</name>
<description>Transmission Complete Request Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TCF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TCF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PUSHR</name>
<description>PUSH TX FIFO Register In Master Mode</description>
<alternateGroup>SPI0</alternateGroup>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXDATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PCS0</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS1</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS2</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS3</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS4</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS5</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CTCNT</name>
<description>Clear Transfer Counter</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not clear the TCR[TCNT] field.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear the TCR[TCNT] field.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EOQ</name>
<description>End Of Queue</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The SPI data is not the last data to transfer.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The SPI data is the last data to transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CTAS</name>
<description>Clock and Transfer Attributes Select</description>
<bitOffset>28</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>CTAR0</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>CTAR1</description>
<value>#001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CONT</name>
<description>Continuous Peripheral Chip Select Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Return PCSn signals to their inactive state between transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Keep PCSn signals asserted between transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PUSHR_SLAVE</name>
<description>PUSH TX FIFO Register In Slave Mode</description>
<alternateGroup>SPI0</alternateGroup>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXDATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>POPR</name>
<description>POP RX FIFO Register</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RXDATA</name>
<description>Received Data</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>TXFR%s</name>
<description>Transmit FIFO Registers</description>
<addressOffset>0x3C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXDATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TXCMD_TXDATA</name>
<description>Transmit Command or Transmit Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>RXFR%s</name>
<description>Receive FIFO Registers</description>
<addressOffset>0x7C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RXDATA</name>
<description>Receive Data</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>SPI1</name>
<description>Serial Peripheral Interface</description>
<groupName>SPI</groupName>
<prependToName>SPI1_</prependToName>
<baseAddress>0x4002D000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x8C</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>SPI1</name>
<value>27</value>
</interrupt>
<registers>
<register>
<name>MCR</name>
<description>Module Configuration Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x4001</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>HALT</name>
<description>Halt</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Start transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Stop transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SMPL_PT</name>
<description>Sample Point</description>
<bitOffset>8</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>0 protocol clock cycles between SCK edge and SIN sample</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>1 protocol clock cycle between SCK edge and SIN sample</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>2 protocol clock cycles between SCK edge and SIN sample</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLR_RXF</name>
<description>CLR_RXF</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not clear the RX FIFO counter.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear the RX FIFO counter.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLR_TXF</name>
<description>Clear TX FIFO</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not clear the TX FIFO counter.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear the TX FIFO counter.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DIS_RXF</name>
<description>Disable Receive FIFO</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RX FIFO is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RX FIFO is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DIS_TXF</name>
<description>Disable Transmit FIFO</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TX FIFO is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TX FIFO is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MDIS</name>
<description>Module Disable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Enables the module clocks.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Allows external logic to disable the module clocks.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOZE</name>
<description>Doze Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Doze mode has no effect on the module.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Doze mode disables the module.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS0</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS1</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS2</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS3</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS4</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSIS5</name>
<description>Peripheral Chip Select x Inactive State</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state of PCSx is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state of PCSx is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ROOE</name>
<description>Receive FIFO Overflow Overwrite Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Incoming data is ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Incoming data is shifted into the shift register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSSE</name>
<description>Peripheral Chip Select Strobe Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PCS5/ PCSS is used as the Peripheral Chip Select[5] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PCS5/ PCSS is used as an active-low PCS Strobe signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MTFE</name>
<description>Modified Transfer Format Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Modified SPI transfer format disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Modified SPI transfer format enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRZ</name>
<description>Freeze</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not halt serial transfers in Debug mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Halt serial transfers in Debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DCONF</name>
<description>SPI Configuration.</description>
<bitOffset>28</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>SPI</description>
<value>#00</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CONT_SCKE</name>
<description>Continuous SCK Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Continuous SCK disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Continuous SCK enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSTR</name>
<description>Master/Slave Mode Select</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Enables Slave mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables Master mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR</name>
<description>Transfer Count Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SPI_TCNT</name>
<description>SPI Transfer Counter</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>2</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1</dimIndex>
<name>CTAR%s</name>
<description>Clock and Transfer Attributes Register (In Master Mode)</description>
<alternateGroup>SPI1</alternateGroup>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x78000000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>BR</name>
<description>Baud Rate Scaler</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DT</name>
<description>Delay After Transfer Scaler</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ASC</name>
<description>After SCK Delay Scaler</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CSSCK</name>
<description>PCS to SCK Delay Scaler</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PBR</name>
<description>Baud Rate Prescaler</description>
<bitOffset>16</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Baud Rate Prescaler value is 2.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Baud Rate Prescaler value is 3.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Baud Rate Prescaler value is 5.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Baud Rate Prescaler value is 7.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDT</name>
<description>Delay after Transfer Prescaler</description>
<bitOffset>18</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Delay after Transfer Prescaler value is 1.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Delay after Transfer Prescaler value is 3.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Delay after Transfer Prescaler value is 5.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Delay after Transfer Prescaler value is 7.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PASC</name>
<description>After SCK Delay Prescaler</description>
<bitOffset>20</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Delay after Transfer Prescaler value is 1.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Delay after Transfer Prescaler value is 3.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Delay after Transfer Prescaler value is 5.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Delay after Transfer Prescaler value is 7.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCSSCK</name>
<description>PCS to SCK Delay Prescaler</description>
<bitOffset>22</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>PCS to SCK Prescaler value is 1.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>PCS to SCK Prescaler value is 3.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>PCS to SCK Prescaler value is 5.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>PCS to SCK Prescaler value is 7.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LSBFE</name>
<description>LSB First</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data is transferred MSB first.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data is transferred LSB first.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPHA</name>
<description>Clock Phase</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data is captured on the leading edge of SCK and changed on the following edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data is changed on the leading edge of SCK and captured on the following edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOL</name>
<description>Clock Polarity</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state value of SCK is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state value of SCK is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FMSZ</name>
<description>Frame Size</description>
<bitOffset>27</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DBR</name>
<description>Double Baud Rate</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The baud rate is computed normally with a 50/50 duty cycle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The baud rate is doubled with the duty cycle depending on the Baud Rate Prescaler.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CTAR_SLAVE</name>
<description>Clock and Transfer Attributes Register (In Slave Mode)</description>
<alternateGroup>SPI1</alternateGroup>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x78000000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CPHA</name>
<description>Clock Phase</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data is captured on the leading edge of SCK and changed on the following edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data is changed on the leading edge of SCK and captured on the following edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOL</name>
<description>Clock Polarity</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The inactive state value of SCK is low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The inactive state value of SCK is high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FMSZ</name>
<description>Frame Size</description>
<bitOffset>27</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SR</name>
<description>Status Register</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x2000000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>POPNXTPTR</name>
<description>Pop Next Pointer</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RXCTR</name>
<description>RX FIFO Counter</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TXNXTPTR</name>
<description>Transmit Next Pointer</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TXCTR</name>
<description>TX FIFO Counter</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RFDF</name>
<description>Receive FIFO Drain Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RX FIFO is empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RX FIFO is not empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RFOF</name>
<description>Receive FIFO Overflow Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No Rx FIFO overflow.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Rx FIFO overflow has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFFF</name>
<description>Transmit FIFO Fill Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TX FIFO is full.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TX FIFO is not full.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFUF</name>
<description>Transmit FIFO Underflow Flag</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No TX FIFO underflow.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TX FIFO underflow has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EOQF</name>
<description>End of Queue Flag</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>EOQ is not set in the executing command.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>EOQ is set in the executing SPI command.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRXS</name>
<description>TX and RX Status</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit and receive operations are disabled (The module is in Stopped state).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit and receive operations are enabled (The module is in Running state).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCF</name>
<description>Transfer Complete Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transfer not complete.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transfer complete.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RSER</name>
<description>DMA/Interrupt Request Select and Enable Register</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RFDF_DIRS</name>
<description>Receive FIFO Drain DMA or Interrupt Request Select</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RFDF_RE</name>
<description>Receive FIFO Drain Request Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RFDF interrupt or DMA requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RFDF interrupt or DMA requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RFOF_RE</name>
<description>Receive FIFO Overflow Request Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RFOF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RFOF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFFF_DIRS</name>
<description>Transmit FIFO Fill DMA or Interrupt Request Select</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TFFF flag generates interrupt requests.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TFFF flag generates DMA requests.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFFF_RE</name>
<description>Transmit FIFO Fill Request Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TFFF interrupts or DMA requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TFFF interrupts or DMA requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFUF_RE</name>
<description>Transmit FIFO Underflow Request Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TFUF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TFUF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EOQF_RE</name>
<description>Finished Request Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>EOQF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>EOQF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCF_RE</name>
<description>Transmission Complete Request Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TCF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TCF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PUSHR</name>
<description>PUSH TX FIFO Register In Master Mode</description>
<alternateGroup>SPI1</alternateGroup>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXDATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PCS0</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS1</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS2</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS3</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS4</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PCS5</name>
<description>Select which PCS signals are to be asserted for the transfer</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Negate the PCS[x] signal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Assert the PCS[x] signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CTCNT</name>
<description>Clear Transfer Counter</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Do not clear the TCR[TCNT] field.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clear the TCR[TCNT] field.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EOQ</name>
<description>End Of Queue</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The SPI data is not the last data to transfer.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The SPI data is the last data to transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CTAS</name>
<description>Clock and Transfer Attributes Select</description>
<bitOffset>28</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>CTAR0</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>CTAR1</description>
<value>#001</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CONT</name>
<description>Continuous Peripheral Chip Select Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Return PCSn signals to their inactive state between transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Keep PCSn signals asserted between transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PUSHR_SLAVE</name>
<description>PUSH TX FIFO Register In Slave Mode</description>
<alternateGroup>SPI1</alternateGroup>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXDATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>POPR</name>
<description>POP RX FIFO Register</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RXDATA</name>
<description>Received Data</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>TXFR%s</name>
<description>Transmit FIFO Registers</description>
<addressOffset>0x3C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXDATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TXCMD_TXDATA</name>
<description>Transmit Command or Transmit Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>RXFR%s</name>
<description>Receive FIFO Registers</description>
<addressOffset>0x7C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RXDATA</name>
<description>Receive Data</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>I2S0</name>
<description>Inter-IC Sound / Synchronous Audio Interface</description>
<groupName>I2S</groupName>
<prependToName>I2S0_</prependToName>
<baseAddress>0x4002F000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x108</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>I2S0_Tx</name>
<value>28</value>
</interrupt>
<interrupt>
<name>I2S0_Rx</name>
<value>29</value>
</interrupt>
<registers>
<register>
<name>TCSR</name>
<description>SAI Transmit Control Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FRDE</name>
<description>FIFO Request DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWDE</name>
<description>FIFO Warning DMA Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRIE</name>
<description>FIFO Request Interrupt Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWIE</name>
<description>FIFO Warning Interrupt Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>FIFO Error Interrupt Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEIE</name>
<description>Sync Error Interrupt Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WSIE</name>
<description>Word Start Interrupt Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRF</name>
<description>FIFO Request Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit FIFO watermark has not been reached.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit FIFO watermark has been reached.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWF</name>
<description>FIFO Warning Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No enabled transmit FIFO is empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled transmit FIFO is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEF</name>
<description>FIFO Error Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit underrun not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit underrun detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEF</name>
<description>Sync Error Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sync error not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync error detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WSF</name>
<description>Word Start Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Start of word not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Start of word detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SR</name>
<description>Software Reset</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Software reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FR</name>
<description>FIFO Reset</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FIFO reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCE</name>
<description>Bit Clock Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit bit clock is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit bit clock is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGE</name>
<description>Debug Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter is disabled in Debug mode, after completing the current frame.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter is enabled in Debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STOPE</name>
<description>Stop Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter disabled in Stop mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter enabled in Stop mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TE</name>
<description>Transmitter Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter is enabled, or transmitter has been disabled and has not yet reached end of frame.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR1</name>
<description>SAI Transmit Configuration 1 Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TFW</name>
<description>Transmit FIFO Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TCR2</name>
<description>SAI Transmit Configuration 2 Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DIV</name>
<description>Bit Clock Divide</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BCD</name>
<description>Bit Clock Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bit clock is generated externally in Slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bit clock is generated internally in Master mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCP</name>
<description>Bit Clock Polarity</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bit clock is active high with drive outputs on rising edge and sample inputs on falling edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bit clock is active low with drive outputs on falling edge and sample inputs on rising edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSEL</name>
<description>MCLK Select</description>
<bitOffset>26</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Bus Clock selected.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Master Clock (MCLK) 1 option selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Master Clock (MCLK) 2 option selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Master Clock (MCLK) 3 option selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCI</name>
<description>Bit Clock Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal logic is clocked as if bit clock was externally generated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCS</name>
<description>Bit Clock Swap</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Use the normal bit clock source.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Swap the bit clock source.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYNC</name>
<description>Synchronous Mode</description>
<bitOffset>30</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Asynchronous mode.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Synchronous with receiver.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Synchronous with another SAI transmitter.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Synchronous with another SAI receiver.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR3</name>
<description>SAI Transmit Configuration 3 Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>WDFL</name>
<description>Word Flag Configuration</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TCE</name>
<description>Transmit Channel Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data channel N is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data channel N is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR4</name>
<description>SAI Transmit Configuration 4 Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FSD</name>
<description>Frame Sync Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync is generated externally in Slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync is generated internally in Master mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSP</name>
<description>Frame Sync Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ONDEM</name>
<description>On Demand Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal frame sync is generated continuously.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal frame sync is generated when the FIFO warning flag is clear.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSE</name>
<description>Frame Sync Early</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync asserts with the first bit of the frame.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync asserts one bit before the first bit of the frame.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MF</name>
<description>MSB First</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LSB is transmitted first.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MSB is transmitted first.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYWD</name>
<description>Sync Width</description>
<bitOffset>8</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FRSZ</name>
<description>Frame size</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FPACK</name>
<description>FIFO Packing Mode</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>FIFO packing is disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>8-bit FIFO packing is enabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>16-bit FIFO packing is enabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FCONT</name>
<description>FIFO Continue on Error</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>On FIFO error, the SAI will continue from the start of the next frame after the FIFO error flag has been cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>On FIFO error, the SAI will continue from the same word that caused the FIFO error to set after the FIFO warning flag has been cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR5</name>
<description>SAI Transmit Configuration 5 Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FBT</name>
<description>First Bit Shifted</description>
<bitOffset>8</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>W0W</name>
<description>Word 0 Width</description>
<bitOffset>16</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>WNW</name>
<description>Word N Width</description>
<bitOffset>24</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TDR</name>
<description>SAI Transmit Data Register</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDR</name>
<description>Transmit Data Register</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>TFR</name>
<description>SAI Transmit FIFO Register</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RFP</name>
<description>Read FIFO Pointer</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>WFP</name>
<description>Write FIFO Pointer</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>TMR</name>
<description>SAI Transmit Mask Register</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TWM0</name>
<description>Transmit Word Mask</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM1</name>
<description>Transmit Word Mask</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM2</name>
<description>Transmit Word Mask</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM3</name>
<description>Transmit Word Mask</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM4</name>
<description>Transmit Word Mask</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM5</name>
<description>Transmit Word Mask</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM6</name>
<description>Transmit Word Mask</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM7</name>
<description>Transmit Word Mask</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM8</name>
<description>Transmit Word Mask</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM9</name>
<description>Transmit Word Mask</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM10</name>
<description>Transmit Word Mask</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM11</name>
<description>Transmit Word Mask</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM12</name>
<description>Transmit Word Mask</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM13</name>
<description>Transmit Word Mask</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM14</name>
<description>Transmit Word Mask</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM15</name>
<description>Transmit Word Mask</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCSR</name>
<description>SAI Receive Control Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FRDE</name>
<description>FIFO Request DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWDE</name>
<description>FIFO Warning DMA Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRIE</name>
<description>FIFO Request Interrupt Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWIE</name>
<description>FIFO Warning Interrupt Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>FIFO Error Interrupt Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEIE</name>
<description>Sync Error Interrupt Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WSIE</name>
<description>Word Start Interrupt Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRF</name>
<description>FIFO Request Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive FIFO watermark not reached.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO watermark has been reached.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWF</name>
<description>FIFO Warning Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No enabled receive FIFO is full.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled receive FIFO is full.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEF</name>
<description>FIFO Error Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive overflow not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive overflow detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEF</name>
<description>Sync Error Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sync error not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync error detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WSF</name>
<description>Word Start Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Start of word not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Start of word detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SR</name>
<description>Software Reset</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Software reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FR</name>
<description>FIFO Reset</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FIFO reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCE</name>
<description>Bit Clock Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive bit clock is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive bit clock is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGE</name>
<description>Debug Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver is disabled in Debug mode, after completing the current frame.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver is enabled in Debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STOPE</name>
<description>Stop Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver disabled in Stop mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver enabled in Stop mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RE</name>
<description>Receiver Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver is enabled, or receiver has been disabled and has not yet reached end of frame.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCR1</name>
<description>SAI Receive Configuration 1 Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RFW</name>
<description>Receive FIFO Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RCR2</name>
<description>SAI Receive Configuration 2 Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DIV</name>
<description>Bit Clock Divide</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BCD</name>
<description>Bit Clock Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bit clock is generated externally in Slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bit clock is generated internally in Master mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCP</name>
<description>Bit Clock Polarity</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bit Clock is active high with drive outputs on rising edge and sample inputs on falling edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bit Clock is active low with drive outputs on falling edge and sample inputs on rising edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSEL</name>
<description>MCLK Select</description>
<bitOffset>26</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Bus Clock selected.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Master Clock (MCLK) 1 option selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Master Clock (MCLK) 2 option selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Master Clock (MCLK) 3 option selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCI</name>
<description>Bit Clock Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal logic is clocked as if bit clock was externally generated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCS</name>
<description>Bit Clock Swap</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Use the normal bit clock source.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Swap the bit clock source.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYNC</name>
<description>Synchronous Mode</description>
<bitOffset>30</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Asynchronous mode.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Synchronous with transmitter.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Synchronous with another SAI receiver.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Synchronous with another SAI transmitter.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCR3</name>
<description>SAI Receive Configuration 3 Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>WDFL</name>
<description>Word Flag Configuration</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RCE</name>
<description>Receive Channel Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive data channel N is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data channel N is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCR4</name>
<description>SAI Receive Configuration 4 Register</description>
<addressOffset>0x90</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FSD</name>
<description>Frame Sync Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame Sync is generated externally in Slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame Sync is generated internally in Master mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSP</name>
<description>Frame Sync Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ONDEM</name>
<description>On Demand Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal frame sync is generated continuously.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal frame sync is generated when the FIFO warning flag is clear.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSE</name>
<description>Frame Sync Early</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync asserts with the first bit of the frame.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync asserts one bit before the first bit of the frame.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MF</name>
<description>MSB First</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LSB is received first.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MSB is received first.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYWD</name>
<description>Sync Width</description>
<bitOffset>8</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FRSZ</name>
<description>Frame Size</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FPACK</name>
<description>FIFO Packing Mode</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>FIFO packing is disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>8-bit FIFO packing is enabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>16-bit FIFO packing is enabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FCONT</name>
<description>FIFO Continue on Error</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>On FIFO error, the SAI will continue from the start of the next frame after the FIFO error flag has been cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>On FIFO error, the SAI will continue from the same word that caused the FIFO error to set after the FIFO warning flag has been cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCR5</name>
<description>SAI Receive Configuration 5 Register</description>
<addressOffset>0x94</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FBT</name>
<description>First Bit Shifted</description>
<bitOffset>8</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>W0W</name>
<description>Word 0 Width</description>
<bitOffset>16</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>WNW</name>
<description>Word N Width</description>
<bitOffset>24</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RDR</name>
<description>SAI Receive Data Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RDR</name>
<description>Receive Data Register</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RFR</name>
<description>SAI Receive FIFO Register</description>
<addressOffset>0xC0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RFP</name>
<description>Read FIFO Pointer</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>WFP</name>
<description>Write FIFO Pointer</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RMR</name>
<description>SAI Receive Mask Register</description>
<addressOffset>0xE0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RWM0</name>
<description>Receive Word Mask</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM1</name>
<description>Receive Word Mask</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM2</name>
<description>Receive Word Mask</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM3</name>
<description>Receive Word Mask</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM4</name>
<description>Receive Word Mask</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM5</name>
<description>Receive Word Mask</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM6</name>
<description>Receive Word Mask</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM7</name>
<description>Receive Word Mask</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM8</name>
<description>Receive Word Mask</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM9</name>
<description>Receive Word Mask</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM10</name>
<description>Receive Word Mask</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM11</name>
<description>Receive Word Mask</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM12</name>
<description>Receive Word Mask</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM13</name>
<description>Receive Word Mask</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM14</name>
<description>Receive Word Mask</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM15</name>
<description>Receive Word Mask</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MCR</name>
<description>SAI MCLK Control Register</description>
<addressOffset>0x100</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MICS</name>
<description>MCLK Input Clock Select</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>MCLK divider input clock 0 is selected.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCLK divider input clock 1 is selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>MCLK divider input clock 2 is selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCLK divider input clock 3 is selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MOE</name>
<description>MCLK Output Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MCLK signal pin is configured as an input that bypasses the MCLK divider.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MCLK signal pin is configured as an output from the MCLK divider and the MCLK divider is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DUF</name>
<description>Divider Update Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MCLK divider ratio is not being updated currently.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MCLK divider ratio is updating on-the-fly. Further updates to the MCLK divider ratio are blocked while this flag remains set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MDR</name>
<description>SAI MCLK Divide Register</description>
<addressOffset>0x104</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DIVIDE</name>
<description>MCLK Divide</description>
<bitOffset>0</bitOffset>
<bitWidth>12</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FRACT</name>
<description>MCLK Fraction</description>
<bitOffset>12</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>I2S1</name>
<description>Inter-IC Sound / Synchronous Audio Interface</description>
<groupName>I2S</groupName>
<prependToName>I2S1_</prependToName>
<baseAddress>0x40030000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x108</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>I2S1_Tx</name>
<value>88</value>
</interrupt>
<interrupt>
<name>I2S1_Rx</name>
<value>89</value>
</interrupt>
<registers>
<register>
<name>TCSR</name>
<description>SAI Transmit Control Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FRDE</name>
<description>FIFO Request DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWDE</name>
<description>FIFO Warning DMA Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRIE</name>
<description>FIFO Request Interrupt Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWIE</name>
<description>FIFO Warning Interrupt Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>FIFO Error Interrupt Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEIE</name>
<description>Sync Error Interrupt Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WSIE</name>
<description>Word Start Interrupt Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRF</name>
<description>FIFO Request Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit FIFO watermark has not been reached.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit FIFO watermark has been reached.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWF</name>
<description>FIFO Warning Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No enabled transmit FIFO is empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled transmit FIFO is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEF</name>
<description>FIFO Error Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit underrun not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit underrun detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEF</name>
<description>Sync Error Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sync error not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync error detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WSF</name>
<description>Word Start Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Start of word not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Start of word detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SR</name>
<description>Software Reset</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Software reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FR</name>
<description>FIFO Reset</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FIFO reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCE</name>
<description>Bit Clock Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit bit clock is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit bit clock is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGE</name>
<description>Debug Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter is disabled in Debug mode, after completing the current frame.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter is enabled in Debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STOPE</name>
<description>Stop Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter disabled in Stop mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter enabled in Stop mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TE</name>
<description>Transmitter Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter is enabled, or transmitter has been disabled and has not yet reached end of frame.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR1</name>
<description>SAI Transmit Configuration 1 Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TFW</name>
<description>Transmit FIFO Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TCR2</name>
<description>SAI Transmit Configuration 2 Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DIV</name>
<description>Bit Clock Divide</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BCD</name>
<description>Bit Clock Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bit clock is generated externally in Slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bit clock is generated internally in Master mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCP</name>
<description>Bit Clock Polarity</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bit clock is active high with drive outputs on rising edge and sample inputs on falling edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bit clock is active low with drive outputs on falling edge and sample inputs on rising edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSEL</name>
<description>MCLK Select</description>
<bitOffset>26</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Bus Clock selected.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Master Clock (MCLK) 1 option selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Master Clock (MCLK) 2 option selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Master Clock (MCLK) 3 option selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCI</name>
<description>Bit Clock Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal logic is clocked as if bit clock was externally generated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCS</name>
<description>Bit Clock Swap</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Use the normal bit clock source.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Swap the bit clock source.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYNC</name>
<description>Synchronous Mode</description>
<bitOffset>30</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Asynchronous mode.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Synchronous with receiver.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Synchronous with another SAI transmitter.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Synchronous with another SAI receiver.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR3</name>
<description>SAI Transmit Configuration 3 Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>WDFL</name>
<description>Word Flag Configuration</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TCE</name>
<description>Transmit Channel Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data channel N is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data channel N is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR4</name>
<description>SAI Transmit Configuration 4 Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FSD</name>
<description>Frame Sync Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync is generated externally in Slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync is generated internally in Master mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSP</name>
<description>Frame Sync Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ONDEM</name>
<description>On Demand Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal frame sync is generated continuously.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal frame sync is generated when the FIFO warning flag is clear.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSE</name>
<description>Frame Sync Early</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync asserts with the first bit of the frame.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync asserts one bit before the first bit of the frame.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MF</name>
<description>MSB First</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LSB is transmitted first.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MSB is transmitted first.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYWD</name>
<description>Sync Width</description>
<bitOffset>8</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FRSZ</name>
<description>Frame size</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FPACK</name>
<description>FIFO Packing Mode</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>FIFO packing is disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>8-bit FIFO packing is enabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>16-bit FIFO packing is enabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FCONT</name>
<description>FIFO Continue on Error</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>On FIFO error, the SAI will continue from the start of the next frame after the FIFO error flag has been cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>On FIFO error, the SAI will continue from the same word that caused the FIFO error to set after the FIFO warning flag has been cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TCR5</name>
<description>SAI Transmit Configuration 5 Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FBT</name>
<description>First Bit Shifted</description>
<bitOffset>8</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>W0W</name>
<description>Word 0 Width</description>
<bitOffset>16</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>WNW</name>
<description>Word N Width</description>
<bitOffset>24</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TDR</name>
<description>SAI Transmit Data Register</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDR</name>
<description>Transmit Data Register</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>TFR</name>
<description>SAI Transmit FIFO Register</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RFP</name>
<description>Read FIFO Pointer</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>WFP</name>
<description>Write FIFO Pointer</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>TMR</name>
<description>SAI Transmit Mask Register</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TWM0</name>
<description>Transmit Word Mask</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM1</name>
<description>Transmit Word Mask</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM2</name>
<description>Transmit Word Mask</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM3</name>
<description>Transmit Word Mask</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM4</name>
<description>Transmit Word Mask</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM5</name>
<description>Transmit Word Mask</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM6</name>
<description>Transmit Word Mask</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM7</name>
<description>Transmit Word Mask</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM8</name>
<description>Transmit Word Mask</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM9</name>
<description>Transmit Word Mask</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM10</name>
<description>Transmit Word Mask</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM11</name>
<description>Transmit Word Mask</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM12</name>
<description>Transmit Word Mask</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM13</name>
<description>Transmit Word Mask</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM14</name>
<description>Transmit Word Mask</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TWM15</name>
<description>Transmit Word Mask</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked. The transmit data pins are tri-stated when masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCSR</name>
<description>SAI Receive Control Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FRDE</name>
<description>FIFO Request DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWDE</name>
<description>FIFO Warning DMA Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMA request.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRIE</name>
<description>FIFO Request Interrupt Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWIE</name>
<description>FIFO Warning Interrupt Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>FIFO Error Interrupt Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEIE</name>
<description>Sync Error Interrupt Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WSIE</name>
<description>Word Start Interrupt Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRF</name>
<description>FIFO Request Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive FIFO watermark not reached.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO watermark has been reached.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FWF</name>
<description>FIFO Warning Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No enabled receive FIFO is full.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enabled receive FIFO is full.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEF</name>
<description>FIFO Error Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive overflow not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive overflow detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEF</name>
<description>Sync Error Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sync error not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync error detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WSF</name>
<description>Word Start Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Start of word not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Start of word detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SR</name>
<description>Software Reset</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Software reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FR</name>
<description>FIFO Reset</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FIFO reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCE</name>
<description>Bit Clock Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive bit clock is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive bit clock is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGE</name>
<description>Debug Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver is disabled in Debug mode, after completing the current frame.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver is enabled in Debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STOPE</name>
<description>Stop Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver disabled in Stop mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver enabled in Stop mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RE</name>
<description>Receiver Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver is enabled, or receiver has been disabled and has not yet reached end of frame.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCR1</name>
<description>SAI Receive Configuration 1 Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RFW</name>
<description>Receive FIFO Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RCR2</name>
<description>SAI Receive Configuration 2 Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DIV</name>
<description>Bit Clock Divide</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BCD</name>
<description>Bit Clock Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bit clock is generated externally in Slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bit clock is generated internally in Master mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCP</name>
<description>Bit Clock Polarity</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bit Clock is active high with drive outputs on rising edge and sample inputs on falling edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bit Clock is active low with drive outputs on falling edge and sample inputs on rising edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSEL</name>
<description>MCLK Select</description>
<bitOffset>26</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Bus Clock selected.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Master Clock (MCLK) 1 option selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Master Clock (MCLK) 2 option selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Master Clock (MCLK) 3 option selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCI</name>
<description>Bit Clock Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal logic is clocked as if bit clock was externally generated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BCS</name>
<description>Bit Clock Swap</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Use the normal bit clock source.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Swap the bit clock source.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYNC</name>
<description>Synchronous Mode</description>
<bitOffset>30</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Asynchronous mode.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Synchronous with transmitter.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Synchronous with another SAI receiver.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Synchronous with another SAI transmitter.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCR3</name>
<description>SAI Receive Configuration 3 Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>WDFL</name>
<description>Word Flag Configuration</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RCE</name>
<description>Receive Channel Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive data channel N is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data channel N is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCR4</name>
<description>SAI Receive Configuration 4 Register</description>
<addressOffset>0x90</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FSD</name>
<description>Frame Sync Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame Sync is generated externally in Slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame Sync is generated internally in Master mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSP</name>
<description>Frame Sync Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ONDEM</name>
<description>On Demand Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal frame sync is generated continuously.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal frame sync is generated when the FIFO warning flag is clear.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FSE</name>
<description>Frame Sync Early</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Frame sync asserts with the first bit of the frame.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Frame sync asserts one bit before the first bit of the frame.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MF</name>
<description>MSB First</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LSB is received first.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MSB is received first.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYWD</name>
<description>Sync Width</description>
<bitOffset>8</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FRSZ</name>
<description>Frame Size</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FPACK</name>
<description>FIFO Packing Mode</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>FIFO packing is disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>8-bit FIFO packing is enabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>16-bit FIFO packing is enabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FCONT</name>
<description>FIFO Continue on Error</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>On FIFO error, the SAI will continue from the start of the next frame after the FIFO error flag has been cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>On FIFO error, the SAI will continue from the same word that caused the FIFO error to set after the FIFO warning flag has been cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RCR5</name>
<description>SAI Receive Configuration 5 Register</description>
<addressOffset>0x94</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FBT</name>
<description>First Bit Shifted</description>
<bitOffset>8</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>W0W</name>
<description>Word 0 Width</description>
<bitOffset>16</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>WNW</name>
<description>Word N Width</description>
<bitOffset>24</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RDR</name>
<description>SAI Receive Data Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RDR</name>
<description>Receive Data Register</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RFR</name>
<description>SAI Receive FIFO Register</description>
<addressOffset>0xC0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RFP</name>
<description>Read FIFO Pointer</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>WFP</name>
<description>Write FIFO Pointer</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RMR</name>
<description>SAI Receive Mask Register</description>
<addressOffset>0xE0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RWM0</name>
<description>Receive Word Mask</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM1</name>
<description>Receive Word Mask</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM2</name>
<description>Receive Word Mask</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM3</name>
<description>Receive Word Mask</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM4</name>
<description>Receive Word Mask</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM5</name>
<description>Receive Word Mask</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM6</name>
<description>Receive Word Mask</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM7</name>
<description>Receive Word Mask</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM8</name>
<description>Receive Word Mask</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM9</name>
<description>Receive Word Mask</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM10</name>
<description>Receive Word Mask</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM11</name>
<description>Receive Word Mask</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM12</name>
<description>Receive Word Mask</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM13</name>
<description>Receive Word Mask</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM14</name>
<description>Receive Word Mask</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWM15</name>
<description>Receive Word Mask</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Word N is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Word N is masked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MCR</name>
<description>SAI MCLK Control Register</description>
<addressOffset>0x100</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MICS</name>
<description>MCLK Input Clock Select</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>MCLK divider input clock 0 is selected.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCLK divider input clock 1 is selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>MCLK divider input clock 2 is selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCLK divider input clock 3 is selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MOE</name>
<description>MCLK Output Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MCLK signal pin is configured as an input that bypasses the MCLK divider.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MCLK signal pin is configured as an output from the MCLK divider and the MCLK divider is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DUF</name>
<description>Divider Update Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MCLK divider ratio is not being updated currently.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MCLK divider ratio is updating on-the-fly. Further updates to the MCLK divider ratio are blocked while this flag remains set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MDR</name>
<description>SAI MCLK Divide Register</description>
<addressOffset>0x104</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DIVIDE</name>
<description>MCLK Divide</description>
<bitOffset>0</bitOffset>
<bitWidth>12</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FRACT</name>
<description>MCLK Fraction</description>
<bitOffset>12</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>CRC</name>
<description>Cyclic Redundancy Check</description>
<prependToName>CRC_</prependToName>
<baseAddress>0x40032000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xC</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>DATA</name>
<description>CRC Data register</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFFFFFFFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LL</name>
<description>CRC Low Lower Byte</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LU</name>
<description>CRC Low Upper Byte</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HL</name>
<description>CRC High Lower Byte</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HU</name>
<description>CRC High Upper Byte</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DATAL</name>
<description>CRC_DATAL register.</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>DATAL</name>
<description>DATAL stores the lower 16 bits of the 16/32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DATALL</name>
<description>CRC_DATALL register.</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DATALL</name>
<description>CRCLL stores the first 8 bits of the 32 bit DATA</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DATALU</name>
<description>CRC_DATALU register.</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DATALU</name>
<description>DATALL stores the second 8 bits of the 32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DATAH</name>
<description>CRC_DATAH register.</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0x2</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>DATAH</name>
<description>DATAH stores the high 16 bits of the 16/32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DATAHL</name>
<description>CRC_DATAHL register.</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DATAHL</name>
<description>DATAHL stores the third 8 bits of the 32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DATAHU</name>
<description>CRC_DATAHU register.</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DATAHU</name>
<description>DATAHU stores the fourth 8 bits of the 32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>GPOLY</name>
<description>CRC Polynomial register</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x1021</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LOW</name>
<description>Low Polynominal Half-word</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HIGH</name>
<description>High Polynominal Half-word</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>GPOLYL</name>
<description>CRC_GPOLYL register.</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0x4</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>GPOLYL</name>
<description>POLYL stores the lower 16 bits of the 16/32 bit CRC polynomial value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>GPOLYLL</name>
<description>CRC_GPOLYLL register.</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>GPOLYLL</name>
<description>POLYLL stores the first 8 bits of the 32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>GPOLYLU</name>
<description>CRC_GPOLYLU register.</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>GPOLYLU</name>
<description>POLYLL stores the second 8 bits of the 32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>GPOLYH</name>
<description>CRC_GPOLYH register.</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0x6</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>GPOLYH</name>
<description>POLYH stores the high 16 bits of the 16/32 bit CRC polynomial value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>GPOLYHL</name>
<description>CRC_GPOLYHL register.</description>
<alternateGroup>CRC</alternateGroup>
<addressOffset>0x6</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>GPOLYHL</name>
<description>POLYHL stores the third 8 bits of the 32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>GPOLYHU</name>
<description>CRC_GPOLYHU register.</description>
<addressOffset>0x7</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>GPOLYHU</name>
<description>POLYHU stores the fourth 8 bits of the 32 bit CRC</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CTRL</name>
<description>CRC Control register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TCRC</name>
<description>Width of CRC protocol.</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>16-bit CRC protocol.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>32-bit CRC protocol.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAS</name>
<description>Write CRC Data Register As Seed</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the CRC data register are data values.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the CRC data register are seed values.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FXOR</name>
<description>Complement Read Of CRC Data Register</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No XOR on reading.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Invert or complement the read value of the CRC Data register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOTR</name>
<description>Type Of Transpose For Read</description>
<bitOffset>28</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No transposition.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Bits in bytes are transposed; bytes are not transposed.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Both bits in bytes and bytes are transposed.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Only bytes are transposed; no bits in a byte are transposed.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOT</name>
<description>Type Of Transpose For Writes</description>
<bitOffset>30</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No transposition.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Bits in bytes are transposed; bytes are not transposed.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Both bits in bytes and bytes are transposed.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Only bytes are transposed; no bits in a byte are transposed.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CTRLHU</name>
<description>CRC_CTRLHU register.</description>
<addressOffset>0xB</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TCRC</name>
<description>no description available</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>16-bit CRC protocol.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>32-bit CRC protocol.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAS</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to CRC data register are data values.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to CRC data reguster are seed values.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FXOR</name>
<description>no description available</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No XOR on reading.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Invert or complement the read value of CRC data register.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOTR</name>
<description>no description available</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No Transposition.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Bits in bytes are transposed, bytes are not transposed.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Both bits in bytes and bytes are transposed.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Only bytes are transposed; no bits in a byte are transposed.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOT</name>
<description>no description available</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>No Transposition.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Bits in bytes are transposed, bytes are not transposed.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Both bits in bytes and bytes are transposed.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Only bytes are transposed; no bits in a byte are transposed.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>PDB0</name>
<description>Programmable Delay Block</description>
<prependToName>PDB0_</prependToName>
<baseAddress>0x40036000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x198</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PDB0</name>
<value>52</value>
</interrupt>
<registers>
<register>
<name>SC</name>
<description>Status and Control register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LDOK</name>
<description>Load OK</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CONT</name>
<description>Continuous Mode Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB operation in One-Shot mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB operation in Continuous mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MULT</name>
<description>Multiplication Factor Select for Prescaler</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Multiplication factor is 1.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Multiplication factor is 10.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Multiplication factor is 20.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Multiplication factor is 40.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDBIE</name>
<description>PDB Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDBIF</name>
<description>PDB Interrupt Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PDBEN</name>
<description>PDB Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB disabled. Counter is off.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSEL</name>
<description>Trigger Input Source Select</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Trigger-In 0 is selected.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>Trigger-In 1 is selected.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>Trigger-In 2 is selected.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>Trigger-In 3 is selected.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>Trigger-In 4 is selected.</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Trigger-In 5 is selected.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Trigger-In 6 is selected.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Trigger-In 7 is selected.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>Trigger-In 8 is selected.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>Trigger-In 9 is selected.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>Trigger-In 10 is selected.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Trigger-In 11 is selected.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>Trigger-In 12 is selected.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Trigger-In 13 is selected.</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Trigger-In 14 is selected.</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>Software trigger is selected.</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PRESCALER</name>
<description>Prescaler Divider Select</description>
<bitOffset>12</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Counting uses the peripheral clock divided by multiplication factor selected by MULT.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Counting uses the peripheral clock divided by twice of the multiplication factor selected by MULT.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Counting uses the peripheral clock divided by four times of the multiplication factor selected by MULT.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Counting uses the peripheral clock divided by eight times of the multiplication factor selected by MULT.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Counting uses the peripheral clock divided by 16 times of the multiplication factor selected by MULT.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Counting uses the peripheral clock divided by 32 times of the multiplication factor selected by MULT.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Counting uses the peripheral clock divided by 64 times of the multiplication factor selected by MULT.</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Counting uses the peripheral clock divided by 128 times of the multiplication factor selected by MULT.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMAEN</name>
<description>DMA Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SWTRIG</name>
<description>Software Trigger</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
</field>
<field>
<name>PDBEIE</name>
<description>PDB Sequence Error Interrupt Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB sequence error interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB sequence error interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LDMOD</name>
<description>Load Mode Select</description>
<bitOffset>18</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>The internal registers are loaded with the values from their buffers immediately after 1 is written to LDOK.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>The internal registers are loaded with the values from their buffers when the PDB counter reaches the MOD register value after 1 is written to LDOK.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>The internal registers are loaded with the values from their buffers when a trigger input event is detected after 1 is written to LDOK.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>The internal registers are loaded with the values from their buffers when either the PDB counter reaches the MOD register value or a trigger input event is detected, after 1 is written to LDOK.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MOD</name>
<description>Modulus register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MOD</name>
<description>PDB Modulus</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CNT</name>
<description>Counter register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CNT</name>
<description>PDB Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>IDLY</name>
<description>Interrupt Delay register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>IDLY</name>
<description>PDB Interrupt Delay</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CHC1</name>
<description>Channel n Control register 1</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EN0</name>
<description>PDB Channel Pre-Trigger Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EN1</name>
<description>PDB Channel Pre-Trigger Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EN2</name>
<description>PDB Channel Pre-Trigger Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EN3</name>
<description>PDB Channel Pre-Trigger Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EN4</name>
<description>PDB Channel Pre-Trigger Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EN5</name>
<description>PDB Channel Pre-Trigger Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EN6</name>
<description>PDB Channel Pre-Trigger Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EN7</name>
<description>PDB Channel Pre-Trigger Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOS0</name>
<description>PDB Channel Pre-Trigger Output Select</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger asserts when the counter reaches the channel delay register plus one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOS1</name>
<description>PDB Channel Pre-Trigger Output Select</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger asserts when the counter reaches the channel delay register plus one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOS2</name>
<description>PDB Channel Pre-Trigger Output Select</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger asserts when the counter reaches the channel delay register plus one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOS3</name>
<description>PDB Channel Pre-Trigger Output Select</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger asserts when the counter reaches the channel delay register plus one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOS4</name>
<description>PDB Channel Pre-Trigger Output Select</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger asserts when the counter reaches the channel delay register plus one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOS5</name>
<description>PDB Channel Pre-Trigger Output Select</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger asserts when the counter reaches the channel delay register plus one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOS6</name>
<description>PDB Channel Pre-Trigger Output Select</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger asserts when the counter reaches the channel delay register plus one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOS7</name>
<description>PDB Channel Pre-Trigger Output Select</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger is in bypassed mode. The pre-trigger asserts one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger asserts when the counter reaches the channel delay register plus one peripheral clock cycle after a rising edge is detected on selected trigger input source or software trigger is selected and SETRIG is written with 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BB0</name>
<description>PDB Channel Pre-Trigger Back-to-Back Operation Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BB1</name>
<description>PDB Channel Pre-Trigger Back-to-Back Operation Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BB2</name>
<description>PDB Channel Pre-Trigger Back-to-Back Operation Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BB3</name>
<description>PDB Channel Pre-Trigger Back-to-Back Operation Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BB4</name>
<description>PDB Channel Pre-Trigger Back-to-Back Operation Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BB5</name>
<description>PDB Channel Pre-Trigger Back-to-Back Operation Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BB6</name>
<description>PDB Channel Pre-Trigger Back-to-Back Operation Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BB7</name>
<description>PDB Channel Pre-Trigger Back-to-Back Operation Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB channel&apos;s corresponding pre-trigger back-to-back operation enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CHS</name>
<description>Channel n Status register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ERR0</name>
<description>PDB Channel Sequence Error Flags</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sequence error not detected on PDB channel&apos;s corresponding pre-trigger.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sequence error detected on PDB channel&apos;s corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel&apos;s corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0&apos;s to clear the sequence error flags.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR1</name>
<description>PDB Channel Sequence Error Flags</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sequence error not detected on PDB channel&apos;s corresponding pre-trigger.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sequence error detected on PDB channel&apos;s corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel&apos;s corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0&apos;s to clear the sequence error flags.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR2</name>
<description>PDB Channel Sequence Error Flags</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sequence error not detected on PDB channel&apos;s corresponding pre-trigger.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sequence error detected on PDB channel&apos;s corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel&apos;s corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0&apos;s to clear the sequence error flags.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR3</name>
<description>PDB Channel Sequence Error Flags</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sequence error not detected on PDB channel&apos;s corresponding pre-trigger.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sequence error detected on PDB channel&apos;s corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel&apos;s corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0&apos;s to clear the sequence error flags.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR4</name>
<description>PDB Channel Sequence Error Flags</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sequence error not detected on PDB channel&apos;s corresponding pre-trigger.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sequence error detected on PDB channel&apos;s corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel&apos;s corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0&apos;s to clear the sequence error flags.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR5</name>
<description>PDB Channel Sequence Error Flags</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sequence error not detected on PDB channel&apos;s corresponding pre-trigger.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sequence error detected on PDB channel&apos;s corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel&apos;s corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0&apos;s to clear the sequence error flags.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR6</name>
<description>PDB Channel Sequence Error Flags</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sequence error not detected on PDB channel&apos;s corresponding pre-trigger.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sequence error detected on PDB channel&apos;s corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel&apos;s corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0&apos;s to clear the sequence error flags.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERR7</name>
<description>PDB Channel Sequence Error Flags</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sequence error not detected on PDB channel&apos;s corresponding pre-trigger.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sequence error detected on PDB channel&apos;s corresponding pre-trigger. ADCn block can be triggered for a conversion by one pre-trigger from PDB channel n. When one conversion, which is triggered by one of the pre-triggers from PDB channel n, is in progress, new trigger from PDB channel&apos;s corresponding pre-trigger m cannot be accepted by ADCn, and ERR[m] is set. Writing 0&apos;s to clear the sequence error flags.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CF</name>
<description>PDB Channel Flags</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CHDLY0</name>
<description>Channel n Delay 0 register</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DLY</name>
<description>PDB Channel Delay</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CHDLY1</name>
<description>Channel n Delay 1 register</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DLY</name>
<description>PDB Channel Delay</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DACINTC</name>
<description>DAC Interval Trigger n Control register</description>
<addressOffset>0x150</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TOE</name>
<description>DAC Interval Trigger Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DAC interval trigger disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DAC interval trigger enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EXT</name>
<description>DAC External Trigger Input Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DAC external trigger input disabled. DAC interval counter is reset and started counting when a rising edge is detected on selected trigger input source or software trigger is selected and SWTRIG is written with 1.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DAC external trigger input enabled. DAC interval counter is bypassed and DAC external trigger input triggers the DAC interval trigger.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>DACINT</name>
<description>DAC Interval n register</description>
<addressOffset>0x154</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>INT</name>
<description>DAC Interval</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>POEN</name>
<description>Pulse-Out n Enable register</description>
<addressOffset>0x190</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>POEN0</name>
<description>PDB Pulse-Out Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB Pulse-Out disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB Pulse-Out enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POEN1</name>
<description>PDB Pulse-Out Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB Pulse-Out disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB Pulse-Out enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POEN2</name>
<description>PDB Pulse-Out Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB Pulse-Out disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB Pulse-Out enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POEN3</name>
<description>PDB Pulse-Out Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB Pulse-Out disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB Pulse-Out enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POEN4</name>
<description>PDB Pulse-Out Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB Pulse-Out disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB Pulse-Out enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POEN5</name>
<description>PDB Pulse-Out Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB Pulse-Out disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB Pulse-Out enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POEN6</name>
<description>PDB Pulse-Out Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB Pulse-Out disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB Pulse-Out enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POEN7</name>
<description>PDB Pulse-Out Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB Pulse-Out disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PDB Pulse-Out enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PODLY</name>
<description>Pulse-Out n Delay register</description>
<addressOffset>0x194</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DLY2</name>
<description>PDB Pulse-Out Delay 2</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DLY1</name>
<description>PDB Pulse-Out Delay 1</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>PIT</name>
<description>Periodic Interrupt Timer</description>
<prependToName>PIT_</prependToName>
<baseAddress>0x40037000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x140</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PIT0</name>
<value>48</value>
</interrupt>
<interrupt>
<name>PIT1</name>
<value>49</value>
</interrupt>
<interrupt>
<name>PIT2</name>
<value>50</value>
</interrupt>
<interrupt>
<name>PIT3</name>
<value>51</value>
</interrupt>
<registers>
<register>
<name>MCR</name>
<description>PIT Module Control Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x2</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FRZ</name>
<description>Freeze</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timers continue to run in Debug mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timers are stopped in Debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MDIS</name>
<description>Module Disable - (PIT section)</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock for standard PIT timers is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock for standard PIT timers is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>LTMR64H</name>
<description>PIT Upper Lifetime Timer Register</description>
<addressOffset>0xE0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LTH</name>
<description>Life Timer value</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>LTMR64L</name>
<description>PIT Lower Lifetime Timer Register</description>
<addressOffset>0xE4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LTL</name>
<description>Life Timer value</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x10</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>LDVAL%s</name>
<description>Timer Load Value Register</description>
<addressOffset>0x100</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TSV</name>
<description>Timer Start Value</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x10</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>CVAL%s</name>
<description>Current Timer Value Register</description>
<addressOffset>0x104</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TVL</name>
<description>Current Timer Value</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x10</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>TCTRL%s</name>
<description>Timer Control Register</description>
<addressOffset>0x108</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TEN</name>
<description>Timer Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timer n is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timer n is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIE</name>
<description>Timer Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt requests from Timer n are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt will be requested whenever TIF is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CHN</name>
<description>Chain Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timer is not chained.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timer is chained to previous timer. For example, for Channel 2, if this field is set, Timer 2 is chained to Timer 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x10</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>TFLG%s</name>
<description>Timer Flag Register</description>
<addressOffset>0x10C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIF</name>
<description>Timer Interrupt Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timeout has not yet occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timeout has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>TPM0</name>
<description>Timer/PWM Module</description>
<groupName>TPM</groupName>
<prependToName>TPM0_</prependToName>
<baseAddress>0x40038000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x88</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>VERID</name>
<description>Version ID Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x5000007</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FEATURE</name>
<description>Feature Identification Number</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>1</name>
<description>Standard feature set.</description>
<value>#1</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Standard feature set with Filter and Combine registers implemented.</description>
<value>#11</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Standard feature set with Filter, Combine and Quadrature registers implemented.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MINOR</name>
<description>Minor Version Number</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MAJOR</name>
<description>Major Version Number</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>PARAM</name>
<description>Parameter Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x101006</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CHAN</name>
<description>Channel Count</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TRIG</name>
<description>Trigger Count</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>WIDTH</name>
<description>Counter Width</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>GLOBAL</name>
<description>TPM Global Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RST</name>
<description>Software Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module is not reset.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SC</name>
<description>Status and Control</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Prescale Factor Selection</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Divide by 1</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Divide by 2</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Divide by 4</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Divide by 8</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Divide by 16</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Divide by 32</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Divide by 64</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Divide by 128</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CMOD</name>
<description>Clock Mode Selection</description>
<bitOffset>3</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>TPM counter is disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>TPM counter increments on every TPM counter clock</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>TPM counter increments on rising edge of TPM_EXTCLK synchronized to the TPM counter clock</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>TPM counter increments on rising edge of the selected external input trigger.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPWMS</name>
<description>Center-Aligned PWM Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter operates in up counting mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter operates in up-down counting mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOIE</name>
<description>Timer Overflow Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable TOF interrupts. Use software polling or DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable TOF interrupts. An interrupt is generated when TOF equals one.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOF</name>
<description>Timer Overflow Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter has not overflowed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter has overflowed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMA</name>
<description>DMA Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables DMA transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables DMA transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CNT</name>
<description>Counter</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>COUNT</name>
<description>Counter value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MOD</name>
<description>Modulo</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MOD</name>
<description>Modulo value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>STATUS</name>
<description>Capture and Compare Status</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CH0F</name>
<description>Channel 0 Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH1F</name>
<description>Channel 1 Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH2F</name>
<description>Channel 2 Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH3F</name>
<description>Channel 3 Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH4F</name>
<description>Channel 4 Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH5F</name>
<description>Channel 5 Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOF</name>
<description>Timer Overflow Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter has not overflowed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter has overflowed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>6</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5</dimIndex>
<name>C%sSC</name>
<description>Channel (n) Status and Control</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DMA</name>
<description>DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable DMA transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable DMA transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ELSA</name>
<description>Edge or Level Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ELSB</name>
<description>Edge or Level Select</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MSA</name>
<description>Channel Mode Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MSB</name>
<description>Channel Mode Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CHIE</name>
<description>Channel Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable channel interrupts.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable channel interrupts.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CHF</name>
<description>Channel Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>6</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1,2,3,4,5</dimIndex>
<name>C%sV</name>
<description>Channel (n) Value</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>VAL</name>
<description>Channel Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>COMBINE</name>
<description>Combine Channel Register</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>COMBINE0</name>
<description>Combine Channels 0 and 1</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 0 and 1 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 0 and 1 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP0</name>
<description>Combine Channel 0 and 1 Swap</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMBINE1</name>
<description>Combine Channels 2 and 3</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 2 and 3 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 2 and 3 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP1</name>
<description>Combine Channels 2 and 3 Swap</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMBINE2</name>
<description>Combine Channels 4 and 5</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 4 and 5 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 4 and 5 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP2</name>
<description>Combine Channels 4 and 5 Swap</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TRIG</name>
<description>Channel Trigger</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TRIG0</name>
<description>Channel 0 Trigger</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG1</name>
<description>Channel 1 Trigger</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG2</name>
<description>Channel 2 Trigger</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG3</name>
<description>Channel 3 Trigger</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG4</name>
<description>Channel 4 Trigger</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG5</name>
<description>Channel 5 Trigger</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>POL</name>
<description>Channel Polarity</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>POL0</name>
<description>Channel 0 Polarity</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL1</name>
<description>Channel 1 Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL2</name>
<description>Channel 2 Polarity</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL3</name>
<description>Channel 3 Polarity</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL4</name>
<description>Channel 4 Polarity</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL5</name>
<description>Channel 5 Polarity</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FILTER</name>
<description>Filter Control</description>
<addressOffset>0x78</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CH0FVAL</name>
<description>Channel 0 Filter Value</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH1FVAL</name>
<description>Channel 1 Filter Value</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH2FVAL</name>
<description>Channel 2 Filter Value</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH3FVAL</name>
<description>Channel 3 Filter Value</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH4FVAL</name>
<description>Channel 4 Filter Value</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH5FVAL</name>
<description>Channel 5 Filter Value</description>
<bitOffset>20</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>QDCTRL</name>
<description>Quadrature Decoder Control and Status</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>QUADEN</name>
<description>Enables the quadrature decoder mode</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Quadrature decoder mode is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Quadrature decoder mode is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOFDIR</name>
<description>Indicates if the TOF bit was set on the top or the bottom of counting.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (zero) to its maximum value (MOD register).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (zero).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>QUADIR</name>
<description>Counter Direction in Quadrature Decode Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Counter direction is decreasing (counter decrement).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Counter direction is increasing (counter increment).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>QUADMODE</name>
<description>Quadrature Decoder Mode</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Phase encoding mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Count and direction encoding mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CONF</name>
<description>Configuration</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DOZEEN</name>
<description>Doze Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal TPM counter continues in Doze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal TPM counter is paused and does not increment during Doze mode. Trigger inputs and input capture events are also ignored.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGMODE</name>
<description>Debug Mode</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>TPM counter is paused and does not increment during debug mode. Trigger inputs and input capture events are also ignored.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>TPM counter continues in debug mode.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GTBSYNC</name>
<description>Global Time Base Synchronization</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Global timebase synchronization disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Global timebase synchronization enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GTBEEN</name>
<description>Global time base enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All channels use the internally generated TPM counter as their timebase</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All channels use an externally generated global timebase as their timebase</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CSOT</name>
<description>Counter Start on Trigger</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter starts to increment immediately, once it is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter only starts to increment when it a rising edge on the selected input trigger is detected, after it has been enabled or after it has stopped due to overflow.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CSOO</name>
<description>Counter Stop On Overflow</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter continues incrementing or decrementing after overflow</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter stops incrementing or decrementing after overflow.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CROT</name>
<description>Counter Reload On Trigger</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Counter is not reloaded due to a rising edge on the selected input trigger</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Counter is reloaded when a rising edge is detected on the selected input trigger</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOT</name>
<description>Counter Pause On Trigger</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TRGPOL</name>
<description>Trigger Polarity</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trigger is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trigger is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSRC</name>
<description>Trigger Source</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trigger source selected by TRGSEL is external.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trigger source selected by TRGSEL is internal (channel pin input capture).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSEL</name>
<description>Trigger Select</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0001</name>
<description>Channel 0 pin input capture</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>Channel 1 pin input capture</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>Channel 0 or Channel 1 pin input capture</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>Channel 2 pin input capture</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Channel 0 or Channel 2 pin input capture</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Channel 1 or Channel 2 pin input capture</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Channel 0 or Channel 1 or Channel 2 pin input capture</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>Channel 3 pin input capture</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>Channel 0 or Channel 3 pin input capture</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>Channel 1 or Channel 3 pin input capture</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Channel 0 or Channel 1 or Channel 3 pin input capture</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>Channel 2 or Channel 3 pin input capture</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Channel 0 or Channel 2 or Channel 3 pin input capture</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Channel 1 or Channel 2 or Channel 3 pin input capture</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>Channel 0 or Channel 1 or Channel 2 or Channel 3 pin input capture</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>TPM1</name>
<description>Timer/PWM Module</description>
<groupName>TPM</groupName>
<prependToName>TPM1_</prependToName>
<baseAddress>0x40039000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x88</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>VERID</name>
<description>Version ID Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x5000007</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FEATURE</name>
<description>Feature Identification Number</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>1</name>
<description>Standard feature set.</description>
<value>#1</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Standard feature set with Filter and Combine registers implemented.</description>
<value>#11</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Standard feature set with Filter, Combine and Quadrature registers implemented.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MINOR</name>
<description>Minor Version Number</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MAJOR</name>
<description>Major Version Number</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>PARAM</name>
<description>Parameter Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x101006</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CHAN</name>
<description>Channel Count</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TRIG</name>
<description>Trigger Count</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>WIDTH</name>
<description>Counter Width</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>GLOBAL</name>
<description>TPM Global Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RST</name>
<description>Software Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module is not reset.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SC</name>
<description>Status and Control</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Prescale Factor Selection</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Divide by 1</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Divide by 2</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Divide by 4</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Divide by 8</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Divide by 16</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Divide by 32</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Divide by 64</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Divide by 128</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CMOD</name>
<description>Clock Mode Selection</description>
<bitOffset>3</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>TPM counter is disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>TPM counter increments on every TPM counter clock</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>TPM counter increments on rising edge of TPM_EXTCLK synchronized to the TPM counter clock</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>TPM counter increments on rising edge of the selected external input trigger.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPWMS</name>
<description>Center-Aligned PWM Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter operates in up counting mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter operates in up-down counting mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOIE</name>
<description>Timer Overflow Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable TOF interrupts. Use software polling or DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable TOF interrupts. An interrupt is generated when TOF equals one.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOF</name>
<description>Timer Overflow Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter has not overflowed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter has overflowed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMA</name>
<description>DMA Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables DMA transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables DMA transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CNT</name>
<description>Counter</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>COUNT</name>
<description>Counter value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MOD</name>
<description>Modulo</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MOD</name>
<description>Modulo value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>STATUS</name>
<description>Capture and Compare Status</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CH0F</name>
<description>Channel 0 Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH1F</name>
<description>Channel 1 Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH2F</name>
<description>Channel 2 Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH3F</name>
<description>Channel 3 Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH4F</name>
<description>Channel 4 Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH5F</name>
<description>Channel 5 Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOF</name>
<description>Timer Overflow Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter has not overflowed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter has overflowed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>2</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1</dimIndex>
<name>C%sSC</name>
<description>Channel (n) Status and Control</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DMA</name>
<description>DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable DMA transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable DMA transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ELSA</name>
<description>Edge or Level Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ELSB</name>
<description>Edge or Level Select</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MSA</name>
<description>Channel Mode Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MSB</name>
<description>Channel Mode Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CHIE</name>
<description>Channel Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable channel interrupts.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable channel interrupts.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CHF</name>
<description>Channel Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>2</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1</dimIndex>
<name>C%sV</name>
<description>Channel (n) Value</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>VAL</name>
<description>Channel Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>COMBINE</name>
<description>Combine Channel Register</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>COMBINE0</name>
<description>Combine Channels 0 and 1</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 0 and 1 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 0 and 1 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP0</name>
<description>Combine Channel 0 and 1 Swap</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMBINE1</name>
<description>Combine Channels 2 and 3</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 2 and 3 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 2 and 3 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP1</name>
<description>Combine Channels 2 and 3 Swap</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMBINE2</name>
<description>Combine Channels 4 and 5</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 4 and 5 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 4 and 5 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP2</name>
<description>Combine Channels 4 and 5 Swap</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TRIG</name>
<description>Channel Trigger</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TRIG0</name>
<description>Channel 0 Trigger</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG1</name>
<description>Channel 1 Trigger</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG2</name>
<description>Channel 2 Trigger</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG3</name>
<description>Channel 3 Trigger</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG4</name>
<description>Channel 4 Trigger</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG5</name>
<description>Channel 5 Trigger</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>POL</name>
<description>Channel Polarity</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>POL0</name>
<description>Channel 0 Polarity</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL1</name>
<description>Channel 1 Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL2</name>
<description>Channel 2 Polarity</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL3</name>
<description>Channel 3 Polarity</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL4</name>
<description>Channel 4 Polarity</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL5</name>
<description>Channel 5 Polarity</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FILTER</name>
<description>Filter Control</description>
<addressOffset>0x78</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CH0FVAL</name>
<description>Channel 0 Filter Value</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH1FVAL</name>
<description>Channel 1 Filter Value</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH2FVAL</name>
<description>Channel 2 Filter Value</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH3FVAL</name>
<description>Channel 3 Filter Value</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH4FVAL</name>
<description>Channel 4 Filter Value</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH5FVAL</name>
<description>Channel 5 Filter Value</description>
<bitOffset>20</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>QDCTRL</name>
<description>Quadrature Decoder Control and Status</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>QUADEN</name>
<description>Enables the quadrature decoder mode</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Quadrature decoder mode is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Quadrature decoder mode is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOFDIR</name>
<description>Indicates if the TOF bit was set on the top or the bottom of counting.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (zero) to its maximum value (MOD register).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (zero).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>QUADIR</name>
<description>Counter Direction in Quadrature Decode Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Counter direction is decreasing (counter decrement).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Counter direction is increasing (counter increment).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>QUADMODE</name>
<description>Quadrature Decoder Mode</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Phase encoding mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Count and direction encoding mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CONF</name>
<description>Configuration</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DOZEEN</name>
<description>Doze Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal TPM counter continues in Doze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal TPM counter is paused and does not increment during Doze mode. Trigger inputs and input capture events are also ignored.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGMODE</name>
<description>Debug Mode</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>TPM counter is paused and does not increment during debug mode. Trigger inputs and input capture events are also ignored.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>TPM counter continues in debug mode.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GTBSYNC</name>
<description>Global Time Base Synchronization</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Global timebase synchronization disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Global timebase synchronization enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GTBEEN</name>
<description>Global time base enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All channels use the internally generated TPM counter as their timebase</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All channels use an externally generated global timebase as their timebase</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CSOT</name>
<description>Counter Start on Trigger</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter starts to increment immediately, once it is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter only starts to increment when it a rising edge on the selected input trigger is detected, after it has been enabled or after it has stopped due to overflow.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CSOO</name>
<description>Counter Stop On Overflow</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter continues incrementing or decrementing after overflow</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter stops incrementing or decrementing after overflow.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CROT</name>
<description>Counter Reload On Trigger</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Counter is not reloaded due to a rising edge on the selected input trigger</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Counter is reloaded when a rising edge is detected on the selected input trigger</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOT</name>
<description>Counter Pause On Trigger</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TRGPOL</name>
<description>Trigger Polarity</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trigger is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trigger is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSRC</name>
<description>Trigger Source</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trigger source selected by TRGSEL is external.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trigger source selected by TRGSEL is internal (channel pin input capture).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSEL</name>
<description>Trigger Select</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0001</name>
<description>Channel 0 pin input capture</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>Channel 1 pin input capture</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>Channel 0 or Channel 1 pin input capture</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>Channel 2 pin input capture</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Channel 0 or Channel 2 pin input capture</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Channel 1 or Channel 2 pin input capture</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Channel 0 or Channel 1 or Channel 2 pin input capture</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>Channel 3 pin input capture</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>Channel 0 or Channel 3 pin input capture</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>Channel 1 or Channel 3 pin input capture</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Channel 0 or Channel 1 or Channel 3 pin input capture</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>Channel 2 or Channel 3 pin input capture</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Channel 0 or Channel 2 or Channel 3 pin input capture</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Channel 1 or Channel 2 or Channel 3 pin input capture</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>Channel 0 or Channel 1 or Channel 2 or Channel 3 pin input capture</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>TPM2</name>
<description>Timer/PWM Module</description>
<groupName>TPM</groupName>
<prependToName>TPM2_</prependToName>
<baseAddress>0x4003A000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x88</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>VERID</name>
<description>Version ID Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x5000007</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FEATURE</name>
<description>Feature Identification Number</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>1</name>
<description>Standard feature set.</description>
<value>#1</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Standard feature set with Filter and Combine registers implemented.</description>
<value>#11</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Standard feature set with Filter, Combine and Quadrature registers implemented.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MINOR</name>
<description>Minor Version Number</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MAJOR</name>
<description>Major Version Number</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>PARAM</name>
<description>Parameter Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x101006</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CHAN</name>
<description>Channel Count</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TRIG</name>
<description>Trigger Count</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>WIDTH</name>
<description>Counter Width</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>GLOBAL</name>
<description>TPM Global Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RST</name>
<description>Software Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module is not reset.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SC</name>
<description>Status and Control</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Prescale Factor Selection</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Divide by 1</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Divide by 2</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Divide by 4</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Divide by 8</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Divide by 16</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Divide by 32</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Divide by 64</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Divide by 128</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CMOD</name>
<description>Clock Mode Selection</description>
<bitOffset>3</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>TPM counter is disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>TPM counter increments on every TPM counter clock</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>TPM counter increments on rising edge of TPM_EXTCLK synchronized to the TPM counter clock</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>TPM counter increments on rising edge of the selected external input trigger.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPWMS</name>
<description>Center-Aligned PWM Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter operates in up counting mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter operates in up-down counting mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOIE</name>
<description>Timer Overflow Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable TOF interrupts. Use software polling or DMA request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable TOF interrupts. An interrupt is generated when TOF equals one.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOF</name>
<description>Timer Overflow Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter has not overflowed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter has overflowed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMA</name>
<description>DMA Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables DMA transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables DMA transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CNT</name>
<description>Counter</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>COUNT</name>
<description>Counter value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MOD</name>
<description>Modulo</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFFFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MOD</name>
<description>Modulo value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>STATUS</name>
<description>Capture and Compare Status</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CH0F</name>
<description>Channel 0 Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH1F</name>
<description>Channel 1 Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH2F</name>
<description>Channel 2 Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH3F</name>
<description>Channel 3 Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH4F</name>
<description>Channel 4 Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CH5F</name>
<description>Channel 5 Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOF</name>
<description>Timer Overflow Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter has not overflowed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter has overflowed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>2</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1</dimIndex>
<name>C%sSC</name>
<description>Channel (n) Status and Control</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DMA</name>
<description>DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable DMA transfers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable DMA transfers.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ELSA</name>
<description>Edge or Level Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ELSB</name>
<description>Edge or Level Select</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MSA</name>
<description>Channel Mode Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MSB</name>
<description>Channel Mode Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CHIE</name>
<description>Channel Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable channel interrupts.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable channel interrupts.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CHF</name>
<description>Channel Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No channel event has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A channel event has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>2</dim>
<dimIncrement>0x8</dimIncrement>
<dimIndex>0,1</dimIndex>
<name>C%sV</name>
<description>Channel (n) Value</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>VAL</name>
<description>Channel Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>COMBINE</name>
<description>Combine Channel Register</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>COMBINE0</name>
<description>Combine Channels 0 and 1</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 0 and 1 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 0 and 1 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP0</name>
<description>Combine Channel 0 and 1 Swap</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMBINE1</name>
<description>Combine Channels 2 and 3</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 2 and 3 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 2 and 3 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP1</name>
<description>Combine Channels 2 and 3 Swap</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMBINE2</name>
<description>Combine Channels 4 and 5</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Channels 4 and 5 are independent.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Channels 4 and 5 are combined.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COMSWAP2</name>
<description>Combine Channels 4 and 5 Swap</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even channel is used for input capture and 1st compare.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd channel is used for input capture and 1st compare.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TRIG</name>
<description>Channel Trigger</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TRIG0</name>
<description>Channel 0 Trigger</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG1</name>
<description>Channel 1 Trigger</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG2</name>
<description>Channel 2 Trigger</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG3</name>
<description>Channel 3 Trigger</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG4</name>
<description>Channel 4 Trigger</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIG5</name>
<description>Channel 5 Trigger</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The input trigger is used for input capture and modulates output (for output compare and PWM).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>POL</name>
<description>Channel Polarity</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>POL0</name>
<description>Channel 0 Polarity</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL1</name>
<description>Channel 1 Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL2</name>
<description>Channel 2 Polarity</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL3</name>
<description>Channel 3 Polarity</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL4</name>
<description>Channel 4 Polarity</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POL5</name>
<description>Channel 5 Polarity</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The channel polarity is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The channel polarity is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FILTER</name>
<description>Filter Control</description>
<addressOffset>0x78</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CH0FVAL</name>
<description>Channel 0 Filter Value</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH1FVAL</name>
<description>Channel 1 Filter Value</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH2FVAL</name>
<description>Channel 2 Filter Value</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH3FVAL</name>
<description>Channel 3 Filter Value</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH4FVAL</name>
<description>Channel 4 Filter Value</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CH5FVAL</name>
<description>Channel 5 Filter Value</description>
<bitOffset>20</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>QDCTRL</name>
<description>Quadrature Decoder Control and Status</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>QUADEN</name>
<description>Enables the quadrature decoder mode</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Quadrature decoder mode is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Quadrature decoder mode is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOFDIR</name>
<description>Indicates if the TOF bit was set on the top or the bottom of counting.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TOF bit was set on the bottom of counting. There was an FTM counter decrement and FTM counter changes from its minimum value (zero) to its maximum value (MOD register).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TOF bit was set on the top of counting. There was an FTM counter increment and FTM counter changes from its maximum value (MOD register) to its minimum value (zero).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>QUADIR</name>
<description>Counter Direction in Quadrature Decode Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Counter direction is decreasing (counter decrement).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Counter direction is increasing (counter increment).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>QUADMODE</name>
<description>Quadrature Decoder Mode</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Phase encoding mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Count and direction encoding mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CONF</name>
<description>Configuration</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DOZEEN</name>
<description>Doze Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal TPM counter continues in Doze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal TPM counter is paused and does not increment during Doze mode. Trigger inputs and input capture events are also ignored.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGMODE</name>
<description>Debug Mode</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>TPM counter is paused and does not increment during debug mode. Trigger inputs and input capture events are also ignored.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>TPM counter continues in debug mode.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GTBSYNC</name>
<description>Global Time Base Synchronization</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Global timebase synchronization disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Global timebase synchronization enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GTBEEN</name>
<description>Global time base enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All channels use the internally generated TPM counter as their timebase</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All channels use an externally generated global timebase as their timebase</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CSOT</name>
<description>Counter Start on Trigger</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter starts to increment immediately, once it is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter only starts to increment when it a rising edge on the selected input trigger is detected, after it has been enabled or after it has stopped due to overflow.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CSOO</name>
<description>Counter Stop On Overflow</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM counter continues incrementing or decrementing after overflow</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM counter stops incrementing or decrementing after overflow.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CROT</name>
<description>Counter Reload On Trigger</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Counter is not reloaded due to a rising edge on the selected input trigger</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Counter is reloaded when a rising edge is detected on the selected input trigger</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOT</name>
<description>Counter Pause On Trigger</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TRGPOL</name>
<description>Trigger Polarity</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trigger is active high.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trigger is active low.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSRC</name>
<description>Trigger Source</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trigger source selected by TRGSEL is external.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trigger source selected by TRGSEL is internal (channel pin input capture).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSEL</name>
<description>Trigger Select</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0001</name>
<description>Channel 0 pin input capture</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>Channel 1 pin input capture</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>Channel 0 or Channel 1 pin input capture</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>Channel 2 pin input capture</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Channel 0 or Channel 2 pin input capture</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Channel 1 or Channel 2 pin input capture</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Channel 0 or Channel 1 or Channel 2 pin input capture</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>Channel 3 pin input capture</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>Channel 0 or Channel 3 pin input capture</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>Channel 1 or Channel 3 pin input capture</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Channel 0 or Channel 1 or Channel 3 pin input capture</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>Channel 2 or Channel 3 pin input capture</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Channel 0 or Channel 2 or Channel 3 pin input capture</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Channel 1 or Channel 2 or Channel 3 pin input capture</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>Channel 0 or Channel 1 or Channel 2 or Channel 3 pin input capture</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>ADC0</name>
<description>Analog-to-Digital Converter</description>
<prependToName>ADC0_</prependToName>
<baseAddress>0x4003B000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x70</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>ADC0</name>
<value>39</value>
</interrupt>
<registers>
<register>
<dim>2</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>A,B</dimIndex>
<name>SC1%s</name>
<description>ADC Status and Control Registers 1</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x1F</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADCH</name>
<description>Input channel select</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00000</name>
<description>When DIFF=0, DADP0 is selected as input; when DIFF=1, DAD0 is selected as input.</description>
<value>#00000</value>
</enumeratedValue>
<enumeratedValue>
<name>00001</name>
<description>When DIFF=0, DADP1 is selected as input; when DIFF=1, DAD1 is selected as input.</description>
<value>#00001</value>
</enumeratedValue>
<enumeratedValue>
<name>00010</name>
<description>When DIFF=0, DADP2 is selected as input; when DIFF=1, DAD2 is selected as input.</description>
<value>#00010</value>
</enumeratedValue>
<enumeratedValue>
<name>00011</name>
<description>When DIFF=0, DADP3 is selected as input; when DIFF=1, DAD3 is selected as input.</description>
<value>#00011</value>
</enumeratedValue>
<enumeratedValue>
<name>00100</name>
<description>When DIFF=0, AD4 is selected as input; when DIFF=1, it is reserved.</description>
<value>#00100</value>
</enumeratedValue>
<enumeratedValue>
<name>00101</name>
<description>When DIFF=0, AD5 is selected as input; when DIFF=1, it is reserved.</description>
<value>#00101</value>
</enumeratedValue>
<enumeratedValue>
<name>00110</name>
<description>When DIFF=0, AD6 is selected as input; when DIFF=1, it is reserved.</description>
<value>#00110</value>
</enumeratedValue>
<enumeratedValue>
<name>00111</name>
<description>When DIFF=0, AD7 is selected as input; when DIFF=1, it is reserved.</description>
<value>#00111</value>
</enumeratedValue>
<enumeratedValue>
<name>01000</name>
<description>When DIFF=0, AD8 is selected as input; when DIFF=1, it is reserved.</description>
<value>#01000</value>
</enumeratedValue>
<enumeratedValue>
<name>01001</name>
<description>When DIFF=0, AD9 is selected as input; when DIFF=1, it is reserved.</description>
<value>#01001</value>
</enumeratedValue>
<enumeratedValue>
<name>01010</name>
<description>When DIFF=0, AD10 is selected as input; when DIFF=1, it is reserved.</description>
<value>#01010</value>
</enumeratedValue>
<enumeratedValue>
<name>01011</name>
<description>When DIFF=0, AD11 is selected as input; when DIFF=1, it is reserved.</description>
<value>#01011</value>
</enumeratedValue>
<enumeratedValue>
<name>01100</name>
<description>When DIFF=0, AD12 is selected as input; when DIFF=1, it is reserved.</description>
<value>#01100</value>
</enumeratedValue>
<enumeratedValue>
<name>01101</name>
<description>When DIFF=0, AD13 is selected as input; when DIFF=1, it is reserved.</description>
<value>#01101</value>
</enumeratedValue>
<enumeratedValue>
<name>01110</name>
<description>When DIFF=0, AD14 is selected as input; when DIFF=1, it is reserved.</description>
<value>#01110</value>
</enumeratedValue>
<enumeratedValue>
<name>01111</name>
<description>When DIFF=0, AD15 is selected as input; when DIFF=1, it is reserved.</description>
<value>#01111</value>
</enumeratedValue>
<enumeratedValue>
<name>10000</name>
<description>When DIFF=0, AD16 is selected as input; when DIFF=1, it is reserved.</description>
<value>#10000</value>
</enumeratedValue>
<enumeratedValue>
<name>10001</name>
<description>When DIFF=0, AD17 is selected as input; when DIFF=1, it is reserved.</description>
<value>#10001</value>
</enumeratedValue>
<enumeratedValue>
<name>10010</name>
<description>When DIFF=0, AD18 is selected as input; when DIFF=1, it is reserved.</description>
<value>#10010</value>
</enumeratedValue>
<enumeratedValue>
<name>10011</name>
<description>When DIFF=0, AD19 is selected as input; when DIFF=1, it is reserved.</description>
<value>#10011</value>
</enumeratedValue>
<enumeratedValue>
<name>10100</name>
<description>When DIFF=0, AD20 is selected as input; when DIFF=1, it is reserved.</description>
<value>#10100</value>
</enumeratedValue>
<enumeratedValue>
<name>10101</name>
<description>When DIFF=0, AD21 is selected as input; when DIFF=1, it is reserved.</description>
<value>#10101</value>
</enumeratedValue>
<enumeratedValue>
<name>10110</name>
<description>When DIFF=0, AD22 is selected as input; when DIFF=1, it is reserved.</description>
<value>#10110</value>
</enumeratedValue>
<enumeratedValue>
<name>10111</name>
<description>When DIFF=0, AD23 is selected as input; when DIFF=1, it is reserved.</description>
<value>#10111</value>
</enumeratedValue>
<enumeratedValue>
<name>11010</name>
<description>When DIFF=0, Temp Sensor (single-ended) is selected as input; when DIFF=1, Temp Sensor (differential) is selected as input.</description>
<value>#11010</value>
</enumeratedValue>
<enumeratedValue>
<name>11011</name>
<description>When DIFF=0, Bandgap (single-ended) is selected as input; when DIFF=1, Bandgap (differential) is selected as input.</description>
<value>#11011</value>
</enumeratedValue>
<enumeratedValue>
<name>11101</name>
<description>When DIFF=0,VREFSH is selected as input; when DIFF=1, -VREFSH (differential) is selected as input. Voltage reference selected is determined by SC2[REFSEL].</description>
<value>#11101</value>
</enumeratedValue>
<enumeratedValue>
<name>11110</name>
<description>When DIFF=0,VREFSL is selected as input; when DIFF=1, it is reserved. Voltage reference selected is determined by SC2[REFSEL].</description>
<value>#11110</value>
</enumeratedValue>
<enumeratedValue>
<name>11111</name>
<description>Module is disabled.</description>
<value>#11111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DIFF</name>
<description>Differential Mode Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Single-ended conversions and input channels are selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Differential conversions and input channels are selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AIEN</name>
<description>Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Conversion complete interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Conversion complete interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COCO</name>
<description>Conversion Complete Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Conversion is not completed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Conversion is completed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CFG1</name>
<description>ADC Configuration Register 1</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADICLK</name>
<description>Input Clock Select</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Bus clock</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Alternate clock 2 (ALTCLK2)</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Alternate clock (ALTCLK)</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Asynchronous clock (ADACK)</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MODE</name>
<description>Conversion mode selection</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>When DIFF=0:It is single-ended 8-bit conversion; when DIFF=1, it is differential 9-bit conversion with 2&apos;s complement output.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>When DIFF=0:It is single-ended 12-bit conversion ; when DIFF=1, it is differential 13-bit conversion with 2&apos;s complement output.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>When DIFF=0:It is single-ended 10-bit conversion. ; when DIFF=1, it is differential 11-bit conversion with 2&apos;s complement output</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>When DIFF=0:It is single-ended 16-bit conversion..; when DIFF=1, it is differential 16-bit conversion with 2&apos;s complement output</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADLSMP</name>
<description>Sample Time Configuration</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Short sample time.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Long sample time.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADIV</name>
<description>Clock Divide Select</description>
<bitOffset>5</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>The divide ratio is 1 and the clock rate is input clock.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>The divide ratio is 2 and the clock rate is (input clock)/2.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>The divide ratio is 4 and the clock rate is (input clock)/4.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>The divide ratio is 8 and the clock rate is (input clock)/8.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADLPC</name>
<description>Low-Power Configuration</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal power configuration.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Low-power configuration. The power is reduced at the expense of maximum clock speed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CFG2</name>
<description>ADC Configuration Register 2</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADLSTS</name>
<description>Long Sample Time Select</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Default longest sample time; 20 extra ADCK cycles; 24 ADCK cycles total.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>12 extra ADCK cycles; 16 ADCK cycles total sample time.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>6 extra ADCK cycles; 10 ADCK cycles total sample time.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>2 extra ADCK cycles; 6 ADCK cycles total sample time.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADHSC</name>
<description>High-Speed Configuration</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal conversion sequence selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High-speed conversion sequence selected with 2 additional ADCK cycles to total conversion time.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADACKEN</name>
<description>Asynchronous Clock Output Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Asynchronous clock output disabled; Asynchronous clock is enabled only if selected by ADICLK and a conversion is active.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Asynchronous clock and clock output is enabled regardless of the state of the ADC.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUXSEL</name>
<description>ADC Mux Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>ADxxa channels are selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>ADxxb channels are selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>2</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>A,B</dimIndex>
<name>R%s</name>
<description>ADC Data Result Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>D</name>
<description>Data result</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<dim>2</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>1,2</dimIndex>
<name>CV%s</name>
<description>Compare Value Registers</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CV</name>
<description>Compare Value.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SC2</name>
<description>Status and Control Register 2</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>REFSEL</name>
<description>Voltage Reference Selection</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Default voltage reference pin pair, that is, external pins VREFH and VREFL</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Alternate reference pair, that is, VALTH and VALTL . This pair may be additional external pins or internal sources depending on the MCU configuration. See the chip configuration information for details specific to this MCU</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMAEN</name>
<description>DMA Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA is enabled and will assert the ADC DMA request during an ADC conversion complete event noted when any of the SC1n[COCO] flags is asserted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACREN</name>
<description>Compare Function Range Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Range function disabled. Only CV1 is compared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Range function enabled. Both CV1 and CV2 are compared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACFGT</name>
<description>Compare Function Greater Than Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configures less than threshold, outside range not inclusive and inside range not inclusive; functionality based on the values placed in CV1 and CV2.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configures greater than or equal to threshold, outside and inside ranges inclusive; functionality based on the values placed in CV1 and CV2.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACFE</name>
<description>Compare Function Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Compare function disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Compare function enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADTRG</name>
<description>Conversion Trigger Select</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Software trigger selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware trigger selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADACT</name>
<description>Conversion Active</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Conversion not in progress.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Conversion in progress.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SC3</name>
<description>Status and Control Register 3</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>AVGS</name>
<description>Hardware Average Select</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>4 samples averaged.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>8 samples averaged.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>16 samples averaged.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>32 samples averaged.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AVGE</name>
<description>Hardware Average Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware average function disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Hardware average function enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADCO</name>
<description>Continuous Conversion Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>One conversion or one set of conversions if the hardware average function is enabled, that is, AVGE=1, after initiating a conversion.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Continuous conversions or sets of conversions if the hardware average function is enabled, that is, AVGE=1, after initiating a conversion.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CALF</name>
<description>Calibration Failed Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Calibration completed normally.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Calibration failed. ADC accuracy specifications are not guaranteed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CAL</name>
<description>Calibration</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>OFS</name>
<description>ADC Offset Correction Register</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x4</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>OFS</name>
<description>Offset Error Correction Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>PG</name>
<description>ADC Plus-Side Gain Register</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x8200</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PG</name>
<description>Plus-Side Gain</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MG</name>
<description>ADC Minus-Side Gain Register</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x8200</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MG</name>
<description>Minus-Side Gain</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLPD</name>
<description>ADC Plus-Side General Calibration Value Register</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xA</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLPD</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLPS</name>
<description>ADC Plus-Side General Calibration Value Register</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x20</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLPS</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLP4</name>
<description>ADC Plus-Side General Calibration Value Register</description>
<addressOffset>0x3C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x200</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLP4</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLP3</name>
<description>ADC Plus-Side General Calibration Value Register</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x100</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLP3</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>9</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLP2</name>
<description>ADC Plus-Side General Calibration Value Register</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x80</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLP2</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLP1</name>
<description>ADC Plus-Side General Calibration Value Register</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x40</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLP1</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>7</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLP0</name>
<description>ADC Plus-Side General Calibration Value Register</description>
<addressOffset>0x4C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x20</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLP0</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLMD</name>
<description>ADC Minus-Side General Calibration Value Register</description>
<addressOffset>0x54</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xA</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLMD</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLMS</name>
<description>ADC Minus-Side General Calibration Value Register</description>
<addressOffset>0x58</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x20</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLMS</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLM4</name>
<description>ADC Minus-Side General Calibration Value Register</description>
<addressOffset>0x5C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x200</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLM4</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLM3</name>
<description>ADC Minus-Side General Calibration Value Register</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x100</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLM3</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>9</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLM2</name>
<description>ADC Minus-Side General Calibration Value Register</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x80</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLM2</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLM1</name>
<description>ADC Minus-Side General Calibration Value Register</description>
<addressOffset>0x68</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x40</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLM1</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>7</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLM0</name>
<description>ADC Minus-Side General Calibration Value Register</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x20</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLM0</name>
<description>Calibration Value</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>RTC</name>
<description>Secure Real Time Clock</description>
<prependToName>RTC_</prependToName>
<baseAddress>0x4003D000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x808</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>RTC</name>
<value>46</value>
</interrupt>
<interrupt>
<name>RTC_Seconds</name>
<value>47</value>
</interrupt>
<registers>
<register>
<name>TSR</name>
<description>RTC Time Seconds Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TSR</name>
<description>Time Seconds Register</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TPR</name>
<description>RTC Time Prescaler Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TPR</name>
<description>Time Prescaler Register</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TAR</name>
<description>RTC Time Alarm Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TAR</name>
<description>Time Alarm Register</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TCR</name>
<description>RTC Time Compensation Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TCR</name>
<description>Time Compensation Register</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>10000000</name>
<description>Time Prescaler Register overflows every 32896 clock cycles.</description>
<value>#10000000</value>
</enumeratedValue>
<enumeratedValue>
<name>11111111</name>
<description>Time Prescaler Register overflows every 32769 clock cycles.</description>
<value>#11111111</value>
</enumeratedValue>
<enumeratedValue>
<name>0</name>
<description>Time Prescaler Register overflows every 32768 clock cycles.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time Prescaler Register overflows every 32767 clock cycles.</description>
<value>#1</value>
</enumeratedValue>
<enumeratedValue>
<name>1111111</name>
<description>Time Prescaler Register overflows every 32641 clock cycles.</description>
<value>#1111111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CIR</name>
<description>Compensation Interval Register</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TCV</name>
<description>Time Compensation Value</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>CIC</name>
<description>Compensation Interval Counter</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>CR</name>
<description>RTC Control Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SWR</name>
<description>Software Reset</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Resets all RTC registers except for the SWR bit and the RTC_WAR and RTC_RAR registers . The SWR bit is cleared by VBAT POR and by software explicitly clearing it.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WPE</name>
<description>Wakeup Pin Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Wakeup pin is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Wakeup pin is enabled and wakeup pin asserts if the RTC interrupt asserts or the wakeup pin is turned on.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SUP</name>
<description>Supervisor Access</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Non-supervisor mode write accesses are not supported and generate a bus error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Non-supervisor mode write accesses are supported.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UM</name>
<description>Update Mode</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Registers cannot be written when locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Registers can be written when locked under limited conditions.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WPS</name>
<description>Wakeup Pin Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Wakeup pin asserts (active low, open drain) if the RTC interrupt asserts or the wakeup pin is turned on.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Wakeup pin instead outputs the RTC 32kHz clock, provided the wakeup pin is turned on and the 32kHz clock is output to other peripherals.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OSCE</name>
<description>Oscillator Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>32.768 kHz oscillator is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>32.768 kHz oscillator is enabled. After setting this bit, wait the oscillator startup time before enabling the time counter to allow the 32.768 kHz clock time to stabilize.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLKO</name>
<description>Clock Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The 32 kHz clock is output to other peripherals.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The 32 kHz clock is not output to other peripherals.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SC16P</name>
<description>Oscillator 16pF Load Configure</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the load.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable the additional load.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SC8P</name>
<description>Oscillator 8pF Load Configure</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the load.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable the additional load.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SC4P</name>
<description>Oscillator 4pF Load Configure</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the load.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable the additional load.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SC2P</name>
<description>Oscillator 2pF Load Configure</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the load.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable the additional load.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SR</name>
<description>RTC Status Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIF</name>
<description>Time Invalid Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time is valid.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time is invalid and time counter is read as zero.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOF</name>
<description>Time Overflow Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time overflow has not occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time overflow has occurred and time counter is read as zero.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TAF</name>
<description>Time Alarm Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time alarm has not occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time alarm has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCE</name>
<description>Time Counter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time counter is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time counter is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>LR</name>
<description>RTC Lock Register</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TCL</name>
<description>Time Compensation Lock</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time Compensation Register is locked and writes are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time Compensation Register is not locked and writes complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRL</name>
<description>Control Register Lock</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Control Register is locked and writes are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Control Register is not locked and writes complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRL</name>
<description>Status Register Lock</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Status Register is locked and writes are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Status Register is not locked and writes complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LRL</name>
<description>Lock Register Lock</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Lock Register is locked and writes are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Lock Register is not locked and writes complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IER</name>
<description>RTC Interrupt Enable Register</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x7</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIIE</name>
<description>Time Invalid Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time invalid flag does not generate an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time invalid flag does generate an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOIE</name>
<description>Time Overflow Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time overflow flag does not generate an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time overflow flag does generate an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TAIE</name>
<description>Time Alarm Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time alarm flag does not generate an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Time alarm flag does generate an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TSIE</name>
<description>Time Seconds Interrupt Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Seconds interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Seconds interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WPON</name>
<description>Wakeup Pin On</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If the wakeup pin is enabled, then the wakeup pin will assert.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>WAR</name>
<description>RTC Write Access Register</description>
<addressOffset>0x800</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TSRW</name>
<description>Time Seconds Register Write</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the Time Seconds Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the Time Seconds Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPRW</name>
<description>Time Prescaler Register Write</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the Time Prescaler Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the Time Prescaler Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TARW</name>
<description>Time Alarm Register Write</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the Time Alarm Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the Time Alarm Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCRW</name>
<description>Time Compensation Register Write</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the Time Compensation Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the Time Compensation Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRW</name>
<description>Control Register Write</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the Control Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the Control Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRW</name>
<description>Status Register Write</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the Status Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the Status Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LRW</name>
<description>Lock Register Write</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the Lock Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the Lock Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IERW</name>
<description>Interrupt Enable Register Write</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Writes to the Interupt Enable Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Writes to the Interrupt Enable Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RAR</name>
<description>RTC Read Access Register</description>
<addressOffset>0x804</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TSRR</name>
<description>Time Seconds Register Read</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reads to the Time Seconds Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reads to the Time Seconds Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPRR</name>
<description>Time Prescaler Register Read</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reads to the Time Pprescaler Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reads to the Time Prescaler Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TARR</name>
<description>Time Alarm Register Read</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reads to the Time Alarm Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reads to the Time Alarm Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCRR</name>
<description>Time Compensation Register Read</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reads to the Time Compensation Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reads to the Time Compensation Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRR</name>
<description>Control Register Read</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reads to the Control Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reads to the Control Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRR</name>
<description>Status Register Read</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reads to the Status Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reads to the Status Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LRR</name>
<description>Lock Register Read</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reads to the Lock Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reads to the Lock Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IERR</name>
<description>Interrupt Enable Register Read</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reads to the Interrupt Enable Register are ignored.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reads to the Interrupt Enable Register complete as normal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>RFVBAT</name>
<description>VBAT register file</description>
<prependToName>RFVBAT_</prependToName>
<baseAddress>0x4003E000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x20</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<dim>8</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>REG%s</name>
<description>VBAT register file register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LL</name>
<description>Low lower byte</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LH</name>
<description>Low higher byte</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HL</name>
<description>High lower byte</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HH</name>
<description>High higher byte</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>DAC0</name>
<description>12-Bit Digital-to-Analog Converter</description>
<prependToName>DAC0_</prependToName>
<baseAddress>0x4003F000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x24</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>DAC0</name>
<value>56</value>
</interrupt>
<registers>
<register>
<dim>16</dim>
<dimIncrement>0x2</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>DAT%sL</name>
<description>DAC Data Low Register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DATA0</name>
<description>DATA0</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x2</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>DAT%sH</name>
<description>DAC Data High Register</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DATA1</name>
<description>DATA1</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SR</name>
<description>DAC Status Register</description>
<addressOffset>0x20</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x2</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DACBFRPBF</name>
<description>DAC Buffer Read Pointer Bottom Position Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC buffer read pointer is not equal to C2[DACBFUP].</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC buffer read pointer is equal to C2[DACBFUP].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACBFRPTF</name>
<description>DAC Buffer Read Pointer Top Position Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC buffer read pointer is not zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC buffer read pointer is zero.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACBFWMF</name>
<description>DAC Buffer Watermark Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC buffer read pointer has not reached the watermark level.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC buffer read pointer has reached the watermark level.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C0</name>
<description>DAC Control Register</description>
<addressOffset>0x21</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DACBBIEN</name>
<description>DAC Buffer Read Pointer Bottom Flag Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC buffer read pointer bottom flag interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC buffer read pointer bottom flag interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACBTIEN</name>
<description>DAC Buffer Read Pointer Top Flag Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC buffer read pointer top flag interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC buffer read pointer top flag interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACBWIEN</name>
<description>DAC Buffer Watermark Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC buffer watermark interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC buffer watermark interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPEN</name>
<description>DAC Low Power Control</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>High-Power mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Low-Power mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACSWTRG</name>
<description>DAC Software Trigger</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC soft trigger is not valid.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC soft trigger is valid.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACTRGSEL</name>
<description>DAC Trigger Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC hardware trigger is selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC software trigger is selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACRFS</name>
<description>DAC Reference Select</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC selects DACREF_1 as the reference voltage.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC selects DACREF_2 as the reference voltage.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACEN</name>
<description>DAC Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The DAC system is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The DAC system is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C1</name>
<description>DAC Control Register 1</description>
<addressOffset>0x22</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DACBFEN</name>
<description>DAC Buffer Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Buffer read pointer is disabled. The converted data is always the first word of the buffer.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Buffer read pointer is enabled. The converted data is the word that the read pointer points to. It means converted data can be from any word of the buffer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACBFMD</name>
<description>DAC Buffer Work Mode Select</description>
<bitOffset>1</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Normal mode</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Swing mode</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>One-Time Scan mode</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>FIFO mode</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACBFWM</name>
<description>DAC Buffer Watermark Select</description>
<bitOffset>3</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>In normal mode, 1 word . In FIFO mode, 2 or less than 2 data remaining in FIFO will set watermark status bit.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>In normal mode, 2 words . In FIFO mode, Max/4 or less than Max/4 data remaining in FIFO will set watermark status bit.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>In normal mode, 3 words . In FIFO mode, Max/2 or less than Max/2 data remaining in FIFO will set watermark status bit.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>In normal mode, 4 words . In FIFO mode, Max-2 or less than Max-2 data remaining in FIFO will set watermark status bit.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMAEN</name>
<description>DMA Enable Select</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA is enabled. When DMA is enabled, the DMA request will be generated by original interrupts. The interrupts will not be presented on this module at the same time.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C2</name>
<description>DAC Control Register 2</description>
<addressOffset>0x23</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DACBFUP</name>
<description>DAC Buffer Upper Limit</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DACBFRP</name>
<description>DAC Buffer Read Pointer</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>LPTMR0</name>
<description>Low Power Timer</description>
<prependToName>LPTMR0_</prependToName>
<baseAddress>0x40040000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x10</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>LPTMR0</name>
<value>58</value>
</interrupt>
<registers>
<register>
<name>CSR</name>
<description>Low Power Timer Control Status Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TEN</name>
<description>Timer Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LPTMR is disabled and internal logic is reset.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPTMR is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TMS</name>
<description>Timer Mode Select</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Time Counter mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pulse Counter mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TFC</name>
<description>Timer Free-Running Counter</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>CNR is reset whenever TCF is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>CNR is reset on overflow.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPP</name>
<description>Timer Pin Polarity</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pulse Counter input source is active-high, and the CNR will increment on the rising-edge.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pulse Counter input source is active-low, and the CNR will increment on the falling-edge.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPS</name>
<description>Timer Pin Select</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Pulse counter input 0 is selected.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Pulse counter input 1 is selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Pulse counter input 2 is selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Pulse counter input 3 is selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIE</name>
<description>Timer Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timer interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timer interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCF</name>
<description>Timer Compare Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The value of CNR is not equal to CMR and increments.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The value of CNR is equal to CMR and increments.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PSR</name>
<description>Low Power Timer Prescale Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PCS</name>
<description>Prescaler Clock Select</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Prescaler/glitch filter clock 0 selected.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Prescaler/glitch filter clock 1 selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Prescaler/glitch filter clock 2 selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Prescaler/glitch filter clock 3 selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PBYP</name>
<description>Prescaler Bypass</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Prescaler/glitch filter is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Prescaler/glitch filter is bypassed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PRESCALE</name>
<description>Prescale Value</description>
<bitOffset>3</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Prescaler divides the prescaler clock by 2; glitch filter does not support this configuration.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>Prescaler divides the prescaler clock by 4; glitch filter recognizes change on input pin after 2 rising clock edges.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>Prescaler divides the prescaler clock by 8; glitch filter recognizes change on input pin after 4 rising clock edges.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>Prescaler divides the prescaler clock by 16; glitch filter recognizes change on input pin after 8 rising clock edges.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>Prescaler divides the prescaler clock by 32; glitch filter recognizes change on input pin after 16 rising clock edges.</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Prescaler divides the prescaler clock by 64; glitch filter recognizes change on input pin after 32 rising clock edges.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Prescaler divides the prescaler clock by 128; glitch filter recognizes change on input pin after 64 rising clock edges.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Prescaler divides the prescaler clock by 256; glitch filter recognizes change on input pin after 128 rising clock edges.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>Prescaler divides the prescaler clock by 512; glitch filter recognizes change on input pin after 256 rising clock edges.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>Prescaler divides the prescaler clock by 1024; glitch filter recognizes change on input pin after 512 rising clock edges.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>Prescaler divides the prescaler clock by 2048; glitch filter recognizes change on input pin after 1024 rising clock edges.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Prescaler divides the prescaler clock by 4096; glitch filter recognizes change on input pin after 2048 rising clock edges.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>Prescaler divides the prescaler clock by 8192; glitch filter recognizes change on input pin after 4096 rising clock edges.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Prescaler divides the prescaler clock by 16,384; glitch filter recognizes change on input pin after 8192 rising clock edges.</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Prescaler divides the prescaler clock by 32,768; glitch filter recognizes change on input pin after 16,384 rising clock edges.</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>Prescaler divides the prescaler clock by 65,536; glitch filter recognizes change on input pin after 32,768 rising clock edges.</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CMR</name>
<description>Low Power Timer Compare Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>COMPARE</name>
<description>Compare Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CNR</name>
<description>Low Power Timer Counter Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>COUNTER</name>
<description>Counter Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>RFSYS</name>
<description>System register file</description>
<prependToName>RFSYS_</prependToName>
<baseAddress>0x40041000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x20</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<dim>8</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7</dimIndex>
<name>REG%s</name>
<description>Register file register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LL</name>
<description>Low lower byte</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LH</name>
<description>Low higher byte</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HL</name>
<description>High lower byte</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HH</name>
<description>High higher byte</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>SIM</name>
<description>System Integration Module</description>
<prependToName>SIM_</prependToName>
<baseAddress>0x40047000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x1070</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>SOPT1</name>
<description>System Options Register 1</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0x1FFF0FC0</resetMask>
<fields>
<field>
<name>RAMSIZE</name>
<description>RAM size</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0001</name>
<description>8 KB</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>16 KB</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>24 KB</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>32 KB</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>48 KB</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>64 KB</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>96 KB</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>128 KB</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>256 KB</description>
<value>#1011</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OSC32KOUT</name>
<description>32K Oscillator Clock Output</description>
<bitOffset>16</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>ERCLK32K is not output.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>ERCLK32K is output on PTE0.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>ERCLK32K is output on PTE26.</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OSC32KSEL</name>
<description>32K oscillator clock select</description>
<bitOffset>18</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>System oscillator (OSC32KCLK)</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>RTC 32.768kHz oscillator</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>LPO 1 kHz</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SOPT2</name>
<description>System Options Register 2</description>
<addressOffset>0x1004</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x1000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LPI2C1SRC</name>
<description>LPI2C1 source</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Clock disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCGFLLCLK , or MCGPLLCLK , or IRC48M clock as selected by SOPT2[PLLFLLSEL].</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>OSCERCLK clock</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCGIRCLK clock</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RTCCLKOUTSEL</name>
<description>RTC clock out select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RTC 1 Hz clock is output on the RTC_CLKOUT pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RTC 32.768kHz clock is output on the RTC_CLKOUT pin.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLKOUTSEL</name>
<description>CLKOUT select</description>
<bitOffset>5</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>010</name>
<description>Flash clock</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>LPO clock (1 kHz)</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>MCGIRCLK</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>RTC 32.768kHz clock</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>OSCERCLK0</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>IRC 48 MHz clock</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPI2C0SRC</name>
<description>LPI2C0 source</description>
<bitOffset>10</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Clock disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCGFLLCLK , or MCGPLLCLK , or IRC48M clock as selected by SOPT2[PLLFLLSEL].</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>OSCERCLK clock</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCGIRCLK clock</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRACECLKSEL</name>
<description>Debug trace clock select</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MCGOUTCLK</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Core/system clock</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLLFLLSEL</name>
<description>PLL/FLL clock select</description>
<bitOffset>16</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>MCGFLLCLK clock</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCGPLLCLK clock</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>IRC48 MHz clock</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USBSRC</name>
<description>USB clock source select</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>External bypass clock (USB_CLKIN).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MCGFLLCLK, or MCGPLLCLK , or IRC48M clock as selected by SOPT2[PLLFLLSEL], and then divided by the USB fractional divider as configured by SIM_CLKDIV2[USBFRAC, USBDIV].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FLEXIOSRC</name>
<description>FlexIO Module Clock Source Select</description>
<bitOffset>22</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>I2S0_MCLK or System clock, selected via SIM_MISCCTRL[FlEXIOS0]</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCGFLLCLK , or MCGPLLCLK , or IRC48M clock as selected by SOPT2[PLLFLLSEL].</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>OSCERCLK clock</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCGIRCLK clock</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPMSRC</name>
<description>TPM clock source select</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Clock disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCGFLLCLK , or MCGPLLCLK , or IRC48M clock as selected by SOPT2[PLLFLLSEL].</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>OSCERCLK clock</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCGIRCLK clock</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPUARTSRC</name>
<description>LPUART clock source select</description>
<bitOffset>26</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Clock disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>MCGFLLCLK , or MCGPLLCLK , or IRC48M clock as selected by SOPT2[PLLFLLSEL].</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>OSCERCLK clock</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>MCGIRCLK clock</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SOPT5</name>
<description>System Options Register 5</description>
<addressOffset>0x1010</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>UART0TXSRC</name>
<description>UART 0 transmit data source select</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>UART0_TX pin</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>UART0_TX pin modulated with TPM1 channel 0 output</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>UART0_TX pin modulated with TPM2 channel 0 output</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UART0RXSRC</name>
<description>UART 0 receive data source select</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>UART0_RX pin</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>CMP0 output</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UART1TXSRC</name>
<description>UART 1 transmit data source select</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>UART1_TX pin</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>UART1_TX pin modulated with TPM1 channel 0 output</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>UART1_TX pin modulated with TPM2 channel 0 output</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UART1RXSRC</name>
<description>UART 1 receive data source select</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>UART1_RX pin</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>CMP0 output</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPUART0TXSRC</name>
<description>LPUART0 transmit data source select</description>
<bitOffset>16</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>LPUART0_TX pin</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>LPUART0_TX pin modulated with TPM1 channel 0 output</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>LPUART0_TX pin modulated with TPM2 channel 0 output</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPUART0RXSRC</name>
<description>LPUART0 receive data source select</description>
<bitOffset>18</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>LPUART0_RX pin</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>CMP0 output</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SOPT7</name>
<description>System Options Register 7</description>
<addressOffset>0x1018</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADC0TRGSEL</name>
<description>ADC0 trigger select</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>PDB external trigger pin input (PDB0_EXTRG)</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>High speed comparator 0 output</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>PIT trigger 0</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>PIT trigger 1</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>PIT trigger 2</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>PIT trigger 3</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>TPM0 overflow</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>TPM1 overflow</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>TPM2 overflow</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>RTC alarm</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>RTC seconds</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Low-power timer (LPTMR) trigger</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>TPM1 channel 0 (A pretrigger) and channel 1 (B pretrigger)</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADC0PRETRGSEL</name>
<description>ADC0 pretrigger select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pre-trigger A</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pre-trigger B</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADC0ALTTRGEN</name>
<description>ADC0 alternate trigger enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PDB trigger selected for ADC0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Alternate trigger selected for ADC0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SOPT9</name>
<description>System Options Register 9</description>
<addressOffset>0x1020</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TPM1CH0SRC</name>
<description>TPM1 channel 0 input capture source select</description>
<bitOffset>18</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>TPM1_CH0 signal</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>CMP0 output</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>USB start of frame pulse</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPM2CH0SRC</name>
<description>TPM2 channel 0 input capture source select</description>
<bitOffset>20</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>TPM2_CH0 signal</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>CMP0 output</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPM0CLKSEL</name>
<description>TPM0 External Clock Pin Select</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM_CLKIN0 pin</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM_CLKIN1 pin</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPM1CLKSEL</name>
<description>TPM1 External Clock Pin Select</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM_CLKIN0 pin</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM_CLKIN1 pin</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPM2CLKSEL</name>
<description>TPM2 External Clock Pin Select</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TPM_CLKIN0 pin</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TPM_CLKIN1 pin</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SDID</name>
<description>System Device Identification Register</description>
<addressOffset>0x1024</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0xB80</resetValue>
<resetMask>0xF0F80</resetMask>
<fields>
<field>
<name>PINID</name>
<description>Pincount identification</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0010</name>
<description>32-pin</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>48-pin</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>64-pin</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>80-pin</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>81-pin or 121-pin</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>100-pin</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>121-pin</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>144-pin</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Custom pinout (WLCSP)</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>169-pin</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>256-pin</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FAMID</name>
<description>Kinetis family identification</description>
<bitOffset>4</bitOffset>
<bitWidth>3</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>KS0x or KS1x</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>KS2x</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>KS3x</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>KS4x</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>KS5x</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>KS6x</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>KS7x</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>KS8x or KS9x</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DIEID</name>
<description>Device Die ID</description>
<bitOffset>7</bitOffset>
<bitWidth>5</bitWidth>
<access>read-only</access>
</field>
<field>
<name>REVID</name>
<description>Device revision number</description>
<bitOffset>12</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>SERIESID</name>
<description>Kinetis Series ID</description>
<bitOffset>20</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Kinetis K series</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>Kinetis L series</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Kinetis W series</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Kinetis V series</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Kinetis KS series</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SUBFAMID</name>
<description>Kinetis Sub-Family ID</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>KSx0 Subfamily</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>KSx2 Subfamily</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>KSx4 Subfamily</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>KSx6 Subfamily</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>KSx7 Subfamily</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FAMILYID</name>
<description>Kinetis Family ID</description>
<bitOffset>28</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>KS0x Family</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>KS1x Family</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>KS2x Family</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>KS3x Family</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>KS4x Family</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>KS5x Family</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>KS6x Family</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>KS7x Family</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>KS8x Family</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>KS9x Family</description>
<value>#1001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCGC4</name>
<description>System Clock Gating Control Register 4</description>
<addressOffset>0x1034</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xF0000030</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>EWM</name>
<description>EWM Clock Gate Control</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPI2C0</name>
<description>LPI2C0 Clock Gate Control</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPI2C1</name>
<description>LPI2C1 Clock Gate Control</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UART0</name>
<description>UART0 Clock Gate Control</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UART1</name>
<description>UART1 Clock Gate Control</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UART2</name>
<description>UART2 Clock Gate Control</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USBOTG</name>
<description>USB Clock Gate Control</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CMP</name>
<description>Comparator Clock Gate Control</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCGC5</name>
<description>System Clock Gating Control Register 5</description>
<addressOffset>0x1038</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x40182</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LPTMR</name>
<description>Low Power Timer Access Control</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Access disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Access enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PORTA</name>
<description>Port A Clock Gate Control</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PORTB</name>
<description>Port B Clock Gate Control</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PORTC</name>
<description>Port C Clock Gate Control</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PORTD</name>
<description>Port D Clock Gate Control</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PORTE</name>
<description>Port E Clock Gate Control</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FLEXIO</name>
<description>FlexIO Clock Gate Control</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCGC6</name>
<description>System Clock Gating Control Register 6</description>
<addressOffset>0x103C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x40000001</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FTF</name>
<description>Flash Memory Clock Gate Control</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMAMUX</name>
<description>DMA Mux Clock Gate Control</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FLEXCAN0</name>
<description>FlexCAN0 Clock Gate Control</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FLEXCAN1</name>
<description>FlexCAN1 Clock Gate Control</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RNGA</name>
<description>RNGA Clock Gate Control</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LPUART0</name>
<description>LPUART0 Clock Gate Control</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SPI0</name>
<description>SPI0 Clock Gate Control</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SPI1</name>
<description>SPI1 Clock Gate Control</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>I2S0</name>
<description>I2S0 Clock Gate Control</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>I2S1</name>
<description>I2S1 Clock Gate Control</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRC</name>
<description>CRC Clock Gate Control</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDB</name>
<description>PDB Clock Gate Control</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PIT</name>
<description>PIT Clock Gate Control</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPM0</name>
<description>TPM0 Clock Gate Control</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPM1</name>
<description>TPM1 Clock Gate Control</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TPM2</name>
<description>TPM2 Clock Gate Control</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADC0</name>
<description>ADC0 Clock Gate Control</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RTC</name>
<description>RTC Access Control</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Access and interrupts disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Access and interrupts enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DAC0</name>
<description>DAC0 Clock Gate Control</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCGC7</name>
<description>System Clock Gating Control Register 7</description>
<addressOffset>0x1040</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x2</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DMA</name>
<description>DMA Clock Gate Control</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CLKDIV1</name>
<description>System Clock Divider Register 1</description>
<addressOffset>0x1044</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x10000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>OUTDIV4</name>
<description>Clock 4 output divider value</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Divide-by-1.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>Divide-by-2.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>Divide-by-3.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>Divide-by-4.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>Divide-by-5.</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Divide-by-6.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Divide-by-7.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Divide-by-8.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>Divide-by-9.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>Divide-by-10.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>Divide-by-11.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Divide-by-12.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>Divide-by-13.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Divide-by-14.</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Divide-by-15.</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>Divide-by-16.</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OUTDIV2</name>
<description>Clock 2 output divider value</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Divide-by-1.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>Divide-by-2.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>Divide-by-3.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>Divide-by-4.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>Divide-by-5.</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Divide-by-6.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Divide-by-7.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Divide-by-8.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>Divide-by-9.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>Divide-by-10.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>Divide-by-11.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Divide-by-12.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>Divide-by-13.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Divide-by-14.</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Divide-by-15.</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>Divide-by-16.</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OUTDIV1</name>
<description>Clock 1 output divider value</description>
<bitOffset>28</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Divide-by-1.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>Divide-by-2.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>Divide-by-3.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>Divide-by-4.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0100</name>
<description>Divide-by-5.</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Divide-by-6.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Divide-by-7.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Divide-by-8.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>Divide-by-9.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>Divide-by-10.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>Divide-by-11.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>Divide-by-12.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>Divide-by-13.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Divide-by-14.</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Divide-by-15.</description>
<value>#1110</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>Divide-by-16.</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CLKDIV2</name>
<description>System Clock Divider Register 2</description>
<addressOffset>0x1048</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>USBFRAC</name>
<description>USB clock divider fraction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>USBDIV</name>
<description>USB clock divider divisor</description>
<bitOffset>1</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>FCFG1</name>
<description>Flash Configuration Register 1</description>
<addressOffset>0x104C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFF0F0F00</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FLASHDIS</name>
<description>Flash Disable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Flash is enabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Flash is disabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FLASHDOZE</name>
<description>Flash Doze</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Flash remains enabled during Wait mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Flash is disabled for the duration of Wait mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFSIZE</name>
<description>Program flash size</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0011</name>
<description>32 KB of program flash memory</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>64 KB of program flash memory</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>128 KB of program flash memory</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>256 KB of program flash memory</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>512 KB of program flash memory</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>1024 KB of program flash memory</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1111</name>
<description>256 KB of program flash memory</description>
<value>#1111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FCFG2</name>
<description>Flash Configuration Register 2</description>
<addressOffset>0x1050</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x20800000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MAXADDR0</name>
<description>Max address block 0</description>
<bitOffset>24</bitOffset>
<bitWidth>7</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>UIDH</name>
<description>Unique Identification Register High</description>
<addressOffset>0x1054</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>UID</name>
<description>Unique Identification</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>UIDMH</name>
<description>Unique Identification Register Mid-High</description>
<addressOffset>0x1058</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>UID</name>
<description>Unique Identification</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>UIDML</name>
<description>Unique Identification Register Mid Low</description>
<addressOffset>0x105C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>UID</name>
<description>Unique Identification</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>UIDL</name>
<description>Unique Identification Register Low</description>
<addressOffset>0x1060</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>UID</name>
<description>Unique Identification</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>CLKDIV3</name>
<description>System Clock Divider Register 3</description>
<addressOffset>0x1064</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PLLFLLFRAC</name>
<description>PLLFLL clock divider fraction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PLLFLLDIV</name>
<description>PLLFLL clock divider divisor</description>
<bitOffset>1</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MISCCTL</name>
<description>Miscellaneous Control Register</description>
<addressOffset>0x106C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x3</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>UARTSELONUSB</name>
<description>UART Selection over USB DP/DM pins. For more details, see the &quot;UART Over USB Capability&quot; section in the USB chapter.</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>UART0</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>UART1</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>UART2</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>LPUART (default)</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FlexIOS0</name>
<description>FlexIO clock Slot 0 selection</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>system clock</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2S0_MCLK</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>PORTA</name>
<description>Pin Control and Interrupts</description>
<groupName>PORT</groupName>
<prependToName>PORTA_</prependToName>
<baseAddress>0x40049000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xA4</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTA</name>
<value>59</value>
</interrupt>
<registers>
<register>
<name>PCR0</name>
<description>Pin Control Register n</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x702</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR1</name>
<description>Pin Control Register n</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x703</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR2</name>
<description>Pin Control Register n</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x703</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR3</name>
<description>Pin Control Register n</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x703</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR4</name>
<description>Pin Control Register n</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x703</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR5</name>
<description>Pin Control Register n</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR6</name>
<description>Pin Control Register n</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR7</name>
<description>Pin Control Register n</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR8</name>
<description>Pin Control Register n</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR9</name>
<description>Pin Control Register n</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR10</name>
<description>Pin Control Register n</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR11</name>
<description>Pin Control Register n</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR12</name>
<description>Pin Control Register n</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR13</name>
<description>Pin Control Register n</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR14</name>
<description>Pin Control Register n</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR15</name>
<description>Pin Control Register n</description>
<addressOffset>0x3C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR16</name>
<description>Pin Control Register n</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR17</name>
<description>Pin Control Register n</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR18</name>
<description>Pin Control Register n</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR19</name>
<description>Pin Control Register n</description>
<addressOffset>0x4C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR20</name>
<description>Pin Control Register n</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR21</name>
<description>Pin Control Register n</description>
<addressOffset>0x54</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR22</name>
<description>Pin Control Register n</description>
<addressOffset>0x58</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR23</name>
<description>Pin Control Register n</description>
<addressOffset>0x5C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR24</name>
<description>Pin Control Register n</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR25</name>
<description>Pin Control Register n</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR26</name>
<description>Pin Control Register n</description>
<addressOffset>0x68</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR27</name>
<description>Pin Control Register n</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR28</name>
<description>Pin Control Register n</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR29</name>
<description>Pin Control Register n</description>
<addressOffset>0x74</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR30</name>
<description>Pin Control Register n</description>
<addressOffset>0x78</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR31</name>
<description>Pin Control Register n</description>
<addressOffset>0x7C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCLR</name>
<description>Global Pin Control Low Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCHR</name>
<description>Global Pin Control High Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GICLR</name>
<description>Global Interrupt Control Low Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>GICHR</name>
<description>Global Interrupt Control High Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>ISFR</name>
<description>Interrupt Status Flag Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ISF0</name>
<description>Interrupt Status Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF1</name>
<description>Interrupt Status Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF2</name>
<description>Interrupt Status Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF3</name>
<description>Interrupt Status Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF4</name>
<description>Interrupt Status Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF5</name>
<description>Interrupt Status Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF6</name>
<description>Interrupt Status Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF7</name>
<description>Interrupt Status Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF8</name>
<description>Interrupt Status Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF9</name>
<description>Interrupt Status Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF10</name>
<description>Interrupt Status Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF11</name>
<description>Interrupt Status Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF12</name>
<description>Interrupt Status Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF13</name>
<description>Interrupt Status Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF14</name>
<description>Interrupt Status Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF15</name>
<description>Interrupt Status Flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF16</name>
<description>Interrupt Status Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF17</name>
<description>Interrupt Status Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF18</name>
<description>Interrupt Status Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF19</name>
<description>Interrupt Status Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF20</name>
<description>Interrupt Status Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF21</name>
<description>Interrupt Status Flag</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF22</name>
<description>Interrupt Status Flag</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF23</name>
<description>Interrupt Status Flag</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF24</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF25</name>
<description>Interrupt Status Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF26</name>
<description>Interrupt Status Flag</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF27</name>
<description>Interrupt Status Flag</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF28</name>
<description>Interrupt Status Flag</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF29</name>
<description>Interrupt Status Flag</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF30</name>
<description>Interrupt Status Flag</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF31</name>
<description>Interrupt Status Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>PORTB</name>
<description>Pin Control and Interrupts</description>
<groupName>PORT</groupName>
<prependToName>PORTB_</prependToName>
<baseAddress>0x4004A000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xA4</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTB</name>
<value>60</value>
</interrupt>
<registers>
<register>
<name>PCR0</name>
<description>Pin Control Register n</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR1</name>
<description>Pin Control Register n</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR2</name>
<description>Pin Control Register n</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR3</name>
<description>Pin Control Register n</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR4</name>
<description>Pin Control Register n</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR5</name>
<description>Pin Control Register n</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR6</name>
<description>Pin Control Register n</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR7</name>
<description>Pin Control Register n</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR8</name>
<description>Pin Control Register n</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR9</name>
<description>Pin Control Register n</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR10</name>
<description>Pin Control Register n</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR11</name>
<description>Pin Control Register n</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR12</name>
<description>Pin Control Register n</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR13</name>
<description>Pin Control Register n</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR14</name>
<description>Pin Control Register n</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR15</name>
<description>Pin Control Register n</description>
<addressOffset>0x3C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR16</name>
<description>Pin Control Register n</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR17</name>
<description>Pin Control Register n</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR18</name>
<description>Pin Control Register n</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR19</name>
<description>Pin Control Register n</description>
<addressOffset>0x4C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR20</name>
<description>Pin Control Register n</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR21</name>
<description>Pin Control Register n</description>
<addressOffset>0x54</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR22</name>
<description>Pin Control Register n</description>
<addressOffset>0x58</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR23</name>
<description>Pin Control Register n</description>
<addressOffset>0x5C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR24</name>
<description>Pin Control Register n</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR25</name>
<description>Pin Control Register n</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR26</name>
<description>Pin Control Register n</description>
<addressOffset>0x68</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR27</name>
<description>Pin Control Register n</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR28</name>
<description>Pin Control Register n</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR29</name>
<description>Pin Control Register n</description>
<addressOffset>0x74</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR30</name>
<description>Pin Control Register n</description>
<addressOffset>0x78</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR31</name>
<description>Pin Control Register n</description>
<addressOffset>0x7C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCLR</name>
<description>Global Pin Control Low Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCHR</name>
<description>Global Pin Control High Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GICLR</name>
<description>Global Interrupt Control Low Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>GICHR</name>
<description>Global Interrupt Control High Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>ISFR</name>
<description>Interrupt Status Flag Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ISF0</name>
<description>Interrupt Status Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF1</name>
<description>Interrupt Status Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF2</name>
<description>Interrupt Status Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF3</name>
<description>Interrupt Status Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF4</name>
<description>Interrupt Status Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF5</name>
<description>Interrupt Status Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF6</name>
<description>Interrupt Status Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF7</name>
<description>Interrupt Status Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF8</name>
<description>Interrupt Status Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF9</name>
<description>Interrupt Status Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF10</name>
<description>Interrupt Status Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF11</name>
<description>Interrupt Status Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF12</name>
<description>Interrupt Status Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF13</name>
<description>Interrupt Status Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF14</name>
<description>Interrupt Status Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF15</name>
<description>Interrupt Status Flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF16</name>
<description>Interrupt Status Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF17</name>
<description>Interrupt Status Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF18</name>
<description>Interrupt Status Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF19</name>
<description>Interrupt Status Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF20</name>
<description>Interrupt Status Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF21</name>
<description>Interrupt Status Flag</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF22</name>
<description>Interrupt Status Flag</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF23</name>
<description>Interrupt Status Flag</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF24</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF25</name>
<description>Interrupt Status Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF26</name>
<description>Interrupt Status Flag</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF27</name>
<description>Interrupt Status Flag</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF28</name>
<description>Interrupt Status Flag</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF29</name>
<description>Interrupt Status Flag</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF30</name>
<description>Interrupt Status Flag</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF31</name>
<description>Interrupt Status Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>PORTC</name>
<description>Pin Control and Interrupts</description>
<groupName>PORT</groupName>
<prependToName>PORTC_</prependToName>
<baseAddress>0x4004B000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xA4</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTC</name>
<value>61</value>
</interrupt>
<registers>
<register>
<name>PCR0</name>
<description>Pin Control Register n</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR1</name>
<description>Pin Control Register n</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR2</name>
<description>Pin Control Register n</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR3</name>
<description>Pin Control Register n</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR4</name>
<description>Pin Control Register n</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR5</name>
<description>Pin Control Register n</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR6</name>
<description>Pin Control Register n</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR7</name>
<description>Pin Control Register n</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR8</name>
<description>Pin Control Register n</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR9</name>
<description>Pin Control Register n</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR10</name>
<description>Pin Control Register n</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR11</name>
<description>Pin Control Register n</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR12</name>
<description>Pin Control Register n</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR13</name>
<description>Pin Control Register n</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR14</name>
<description>Pin Control Register n</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR15</name>
<description>Pin Control Register n</description>
<addressOffset>0x3C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR16</name>
<description>Pin Control Register n</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR17</name>
<description>Pin Control Register n</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR18</name>
<description>Pin Control Register n</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR19</name>
<description>Pin Control Register n</description>
<addressOffset>0x4C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR20</name>
<description>Pin Control Register n</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR21</name>
<description>Pin Control Register n</description>
<addressOffset>0x54</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR22</name>
<description>Pin Control Register n</description>
<addressOffset>0x58</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR23</name>
<description>Pin Control Register n</description>
<addressOffset>0x5C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR24</name>
<description>Pin Control Register n</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR25</name>
<description>Pin Control Register n</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR26</name>
<description>Pin Control Register n</description>
<addressOffset>0x68</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR27</name>
<description>Pin Control Register n</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR28</name>
<description>Pin Control Register n</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR29</name>
<description>Pin Control Register n</description>
<addressOffset>0x74</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR30</name>
<description>Pin Control Register n</description>
<addressOffset>0x78</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR31</name>
<description>Pin Control Register n</description>
<addressOffset>0x7C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCLR</name>
<description>Global Pin Control Low Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCHR</name>
<description>Global Pin Control High Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GICLR</name>
<description>Global Interrupt Control Low Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>GICHR</name>
<description>Global Interrupt Control High Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>ISFR</name>
<description>Interrupt Status Flag Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ISF0</name>
<description>Interrupt Status Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF1</name>
<description>Interrupt Status Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF2</name>
<description>Interrupt Status Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF3</name>
<description>Interrupt Status Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF4</name>
<description>Interrupt Status Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF5</name>
<description>Interrupt Status Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF6</name>
<description>Interrupt Status Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF7</name>
<description>Interrupt Status Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF8</name>
<description>Interrupt Status Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF9</name>
<description>Interrupt Status Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF10</name>
<description>Interrupt Status Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF11</name>
<description>Interrupt Status Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF12</name>
<description>Interrupt Status Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF13</name>
<description>Interrupt Status Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF14</name>
<description>Interrupt Status Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF15</name>
<description>Interrupt Status Flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF16</name>
<description>Interrupt Status Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF17</name>
<description>Interrupt Status Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF18</name>
<description>Interrupt Status Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF19</name>
<description>Interrupt Status Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF20</name>
<description>Interrupt Status Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF21</name>
<description>Interrupt Status Flag</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF22</name>
<description>Interrupt Status Flag</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF23</name>
<description>Interrupt Status Flag</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF24</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF25</name>
<description>Interrupt Status Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF26</name>
<description>Interrupt Status Flag</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF27</name>
<description>Interrupt Status Flag</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF28</name>
<description>Interrupt Status Flag</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF29</name>
<description>Interrupt Status Flag</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF30</name>
<description>Interrupt Status Flag</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF31</name>
<description>Interrupt Status Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>PORTD</name>
<description>Pin Control and Interrupts</description>
<groupName>PORT</groupName>
<prependToName>PORTD_</prependToName>
<baseAddress>0x4004C000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xCC</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTD</name>
<value>62</value>
</interrupt>
<registers>
<register>
<name>PCR0</name>
<description>Pin Control Register n</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR1</name>
<description>Pin Control Register n</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR2</name>
<description>Pin Control Register n</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR3</name>
<description>Pin Control Register n</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR4</name>
<description>Pin Control Register n</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR5</name>
<description>Pin Control Register n</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR6</name>
<description>Pin Control Register n</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR7</name>
<description>Pin Control Register n</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR8</name>
<description>Pin Control Register n</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR9</name>
<description>Pin Control Register n</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR10</name>
<description>Pin Control Register n</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR11</name>
<description>Pin Control Register n</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR12</name>
<description>Pin Control Register n</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR13</name>
<description>Pin Control Register n</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR14</name>
<description>Pin Control Register n</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR15</name>
<description>Pin Control Register n</description>
<addressOffset>0x3C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR16</name>
<description>Pin Control Register n</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR17</name>
<description>Pin Control Register n</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR18</name>
<description>Pin Control Register n</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR19</name>
<description>Pin Control Register n</description>
<addressOffset>0x4C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR20</name>
<description>Pin Control Register n</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR21</name>
<description>Pin Control Register n</description>
<addressOffset>0x54</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR22</name>
<description>Pin Control Register n</description>
<addressOffset>0x58</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR23</name>
<description>Pin Control Register n</description>
<addressOffset>0x5C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR24</name>
<description>Pin Control Register n</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR25</name>
<description>Pin Control Register n</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR26</name>
<description>Pin Control Register n</description>
<addressOffset>0x68</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR27</name>
<description>Pin Control Register n</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR28</name>
<description>Pin Control Register n</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR29</name>
<description>Pin Control Register n</description>
<addressOffset>0x74</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR30</name>
<description>Pin Control Register n</description>
<addressOffset>0x78</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR31</name>
<description>Pin Control Register n</description>
<addressOffset>0x7C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCLR</name>
<description>Global Pin Control Low Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCHR</name>
<description>Global Pin Control High Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GICLR</name>
<description>Global Interrupt Control Low Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>GICHR</name>
<description>Global Interrupt Control High Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>ISFR</name>
<description>Interrupt Status Flag Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ISF0</name>
<description>Interrupt Status Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF1</name>
<description>Interrupt Status Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF2</name>
<description>Interrupt Status Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF3</name>
<description>Interrupt Status Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF4</name>
<description>Interrupt Status Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF5</name>
<description>Interrupt Status Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF6</name>
<description>Interrupt Status Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF7</name>
<description>Interrupt Status Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF8</name>
<description>Interrupt Status Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF9</name>
<description>Interrupt Status Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF10</name>
<description>Interrupt Status Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF11</name>
<description>Interrupt Status Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF12</name>
<description>Interrupt Status Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF13</name>
<description>Interrupt Status Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF14</name>
<description>Interrupt Status Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF15</name>
<description>Interrupt Status Flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF16</name>
<description>Interrupt Status Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF17</name>
<description>Interrupt Status Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF18</name>
<description>Interrupt Status Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF19</name>
<description>Interrupt Status Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF20</name>
<description>Interrupt Status Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF21</name>
<description>Interrupt Status Flag</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF22</name>
<description>Interrupt Status Flag</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF23</name>
<description>Interrupt Status Flag</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF24</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF25</name>
<description>Interrupt Status Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF26</name>
<description>Interrupt Status Flag</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF27</name>
<description>Interrupt Status Flag</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF28</name>
<description>Interrupt Status Flag</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF29</name>
<description>Interrupt Status Flag</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF30</name>
<description>Interrupt Status Flag</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF31</name>
<description>Interrupt Status Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>DFER</name>
<description>Digital Filter Enable Register</description>
<addressOffset>0xC0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DFE0</name>
<description>Digital Filter Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE1</name>
<description>Digital Filter Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE2</name>
<description>Digital Filter Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE3</name>
<description>Digital Filter Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE4</name>
<description>Digital Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE5</name>
<description>Digital Filter Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE6</name>
<description>Digital Filter Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE7</name>
<description>Digital Filter Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE8</name>
<description>Digital Filter Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE9</name>
<description>Digital Filter Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE10</name>
<description>Digital Filter Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE11</name>
<description>Digital Filter Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE12</name>
<description>Digital Filter Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE13</name>
<description>Digital Filter Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE14</name>
<description>Digital Filter Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE15</name>
<description>Digital Filter Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE16</name>
<description>Digital Filter Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE17</name>
<description>Digital Filter Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE18</name>
<description>Digital Filter Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE19</name>
<description>Digital Filter Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE20</name>
<description>Digital Filter Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE21</name>
<description>Digital Filter Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE22</name>
<description>Digital Filter Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE23</name>
<description>Digital Filter Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE24</name>
<description>Digital Filter Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE25</name>
<description>Digital Filter Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE26</name>
<description>Digital Filter Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE27</name>
<description>Digital Filter Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE28</name>
<description>Digital Filter Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE29</name>
<description>Digital Filter Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE30</name>
<description>Digital Filter Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFE31</name>
<description>Digital Filter Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filter is disabled on the corresponding pin and output of the digital filter is reset to zero.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filter is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>DFCR</name>
<description>Digital Filter Clock Register</description>
<addressOffset>0xC4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CS</name>
<description>Clock Source</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Digital filters are clocked by the bus clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Digital filters are clocked by the LPO clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>DFWR</name>
<description>Digital Filter Width Register</description>
<addressOffset>0xC8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FILT</name>
<description>Filter Length</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>PORTE</name>
<description>Pin Control and Interrupts</description>
<groupName>PORT</groupName>
<prependToName>PORTE_</prependToName>
<baseAddress>0x4004D000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xA4</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTE</name>
<value>63</value>
</interrupt>
<registers>
<register>
<name>PCR0</name>
<description>Pin Control Register n</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR1</name>
<description>Pin Control Register n</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR2</name>
<description>Pin Control Register n</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR3</name>
<description>Pin Control Register n</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR4</name>
<description>Pin Control Register n</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR5</name>
<description>Pin Control Register n</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR6</name>
<description>Pin Control Register n</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR7</name>
<description>Pin Control Register n</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR8</name>
<description>Pin Control Register n</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR9</name>
<description>Pin Control Register n</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR10</name>
<description>Pin Control Register n</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR11</name>
<description>Pin Control Register n</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR12</name>
<description>Pin Control Register n</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR13</name>
<description>Pin Control Register n</description>
<addressOffset>0x34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR14</name>
<description>Pin Control Register n</description>
<addressOffset>0x38</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR15</name>
<description>Pin Control Register n</description>
<addressOffset>0x3C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR16</name>
<description>Pin Control Register n</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR17</name>
<description>Pin Control Register n</description>
<addressOffset>0x44</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR18</name>
<description>Pin Control Register n</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR19</name>
<description>Pin Control Register n</description>
<addressOffset>0x4C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR20</name>
<description>Pin Control Register n</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR21</name>
<description>Pin Control Register n</description>
<addressOffset>0x54</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR22</name>
<description>Pin Control Register n</description>
<addressOffset>0x58</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR23</name>
<description>Pin Control Register n</description>
<addressOffset>0x5C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR24</name>
<description>Pin Control Register n</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR25</name>
<description>Pin Control Register n</description>
<addressOffset>0x64</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR26</name>
<description>Pin Control Register n</description>
<addressOffset>0x68</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR27</name>
<description>Pin Control Register n</description>
<addressOffset>0x6C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR28</name>
<description>Pin Control Register n</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR29</name>
<description>Pin Control Register n</description>
<addressOffset>0x74</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR30</name>
<description>Pin Control Register n</description>
<addressOffset>0x78</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCR31</name>
<description>Pin Control Register n</description>
<addressOffset>0x7C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PS</name>
<description>Pull Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pulldown resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup resistor is enabled on the corresponding pin, if the corresponding PE field is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Pull Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal pullup or pulldown resistor is not enabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal pullup or pulldown resistor is enabled on the corresponding pin, if the pin is configured as a digital input.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SRE</name>
<description>Slew Rate Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fast slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slow slew rate is configured on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PFE</name>
<description>Passive Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Passive input filter is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Passive input filter is enabled on the corresponding pin, if the pin is configured as a digital input. Refer to the device data sheet for filter characteristics.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODE</name>
<description>Open Drain Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Open drain output is disabled on the corresponding pin.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Open drain output is enabled on the corresponding pin, if the pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DSE</name>
<description>Drive Strength Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High drive strength is configured on the corresponding pin, if pin is configured as a digital output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUX</name>
<description>Pin Mux Control</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Pin disabled (Alternative 0) (analog).</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Alternative 1 (GPIO).</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Alternative 2 (chip-specific).</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Alternative 3 (chip-specific).</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Alternative 4 (chip-specific).</description>
<value>#0100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Alternative 5 (chip-specific).</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Alternative 6 (chip-specific).</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Alternative 7 (chip-specific).</description>
<value>#0111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LK</name>
<description>Lock Register</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Control Register fields [15:0] are not locked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Control Register fields [15:0] are locked and cannot be updated until the next system reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQC</name>
<description>Interrupt Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0000</name>
<description>Interrupt Status Flag (ISF) is disabled.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>0001</name>
<description>ISF flag and DMA request on rising edge.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>0010</name>
<description>ISF flag and DMA request on falling edge.</description>
<value>#0010</value>
</enumeratedValue>
<enumeratedValue>
<name>0011</name>
<description>ISF flag and DMA request on either edge.</description>
<value>#0011</value>
</enumeratedValue>
<enumeratedValue>
<name>0101</name>
<description>Flag sets on rising edge.</description>
<value>#0101</value>
</enumeratedValue>
<enumeratedValue>
<name>0110</name>
<description>Flag sets on falling edge.</description>
<value>#0110</value>
</enumeratedValue>
<enumeratedValue>
<name>0111</name>
<description>Flag sets on either edge.</description>
<value>#0111</value>
</enumeratedValue>
<enumeratedValue>
<name>1000</name>
<description>ISF flag and Interrupt when logic 0.</description>
<value>#1000</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>ISF flag and Interrupt on rising-edge.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1010</name>
<description>ISF flag and Interrupt on falling-edge.</description>
<value>#1010</value>
</enumeratedValue>
<enumeratedValue>
<name>1011</name>
<description>ISF flag and Interrupt on either edge.</description>
<value>#1011</value>
</enumeratedValue>
<enumeratedValue>
<name>1100</name>
<description>ISF flag and Interrupt when logic 1.</description>
<value>#1100</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>Enable active high trigger output, flag is disabled. [The trigger output goes to the trigger mux, which allows pins to trigger other peripherals (configurable polarity; 1 pin per port; if multiple pins are configured, then they are ORed together to create the trigger)]</description>
<value>#1101</value>
</enumeratedValue>
<enumeratedValue>
<name>1110</name>
<description>Enable active low trigger output, flag is disabled.</description>
<value>#1110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCLR</name>
<description>Global Pin Control Low Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GPCHR</name>
<description>Global Pin Control High Register</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GPWD</name>
<description>Global Pin Write Data</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
<field>
<name>GPWE0</name>
<description>Global Pin Write Enable</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE1</name>
<description>Global Pin Write Enable</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE2</name>
<description>Global Pin Write Enable</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE3</name>
<description>Global Pin Write Enable</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE4</name>
<description>Global Pin Write Enable</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE5</name>
<description>Global Pin Write Enable</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE6</name>
<description>Global Pin Write Enable</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE7</name>
<description>Global Pin Write Enable</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE8</name>
<description>Global Pin Write Enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE9</name>
<description>Global Pin Write Enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE10</name>
<description>Global Pin Write Enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE11</name>
<description>Global Pin Write Enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE12</name>
<description>Global Pin Write Enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE13</name>
<description>Global Pin Write Enable</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE14</name>
<description>Global Pin Write Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GPWE15</name>
<description>Global Pin Write Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>GICLR</name>
<description>Global Interrupt Control Low Register</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>GICHR</name>
<description>Global Interrupt Control High Register</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>GIWE0</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE1</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE2</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE3</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE4</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE5</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE6</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE7</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE8</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE9</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE10</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE11</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE12</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE13</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE14</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWE15</name>
<description>Global Interrupt Write Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding Pin Control Register is not updated with the value in GPWD.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding Pin Control Register is updated with the value in GPWD.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GIWD</name>
<description>Global Interrupt Write Data</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>ISFR</name>
<description>Interrupt Status Flag Register</description>
<addressOffset>0xA0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ISF0</name>
<description>Interrupt Status Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF1</name>
<description>Interrupt Status Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF2</name>
<description>Interrupt Status Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF3</name>
<description>Interrupt Status Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF4</name>
<description>Interrupt Status Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF5</name>
<description>Interrupt Status Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF6</name>
<description>Interrupt Status Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF7</name>
<description>Interrupt Status Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF8</name>
<description>Interrupt Status Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF9</name>
<description>Interrupt Status Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF10</name>
<description>Interrupt Status Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF11</name>
<description>Interrupt Status Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF12</name>
<description>Interrupt Status Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF13</name>
<description>Interrupt Status Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF14</name>
<description>Interrupt Status Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF15</name>
<description>Interrupt Status Flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF16</name>
<description>Interrupt Status Flag</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF17</name>
<description>Interrupt Status Flag</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF18</name>
<description>Interrupt Status Flag</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF19</name>
<description>Interrupt Status Flag</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF20</name>
<description>Interrupt Status Flag</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF21</name>
<description>Interrupt Status Flag</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF22</name>
<description>Interrupt Status Flag</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF23</name>
<description>Interrupt Status Flag</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF24</name>
<description>Interrupt Status Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF25</name>
<description>Interrupt Status Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF26</name>
<description>Interrupt Status Flag</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF27</name>
<description>Interrupt Status Flag</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF28</name>
<description>Interrupt Status Flag</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF29</name>
<description>Interrupt Status Flag</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF30</name>
<description>Interrupt Status Flag</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ISF31</name>
<description>Interrupt Status Flag</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configured interrupt is not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configured interrupt is detected. If the pin is configured to generate a DMA request, then the corresponding flag will be cleared automatically at the completion of the requested DMA transfer. Otherwise, the flag remains set until a logic 1 is written to the flag. If the pin is configured for a level sensitive interrupt and the pin remains asserted, then the flag is set again immediately after it is cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>WDOG</name>
<description>Generation 2008 Watchdog Timer</description>
<prependToName>WDOG_</prependToName>
<baseAddress>0x40052000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x18</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>WDOG_EWM</name>
<value>22</value>
</interrupt>
<registers>
<register>
<name>STCTRLH</name>
<description>Watchdog Status and Control Register High</description>
<addressOffset>0</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0x1D3</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>WDOGEN</name>
<description>Enables or disables the WDOG&apos;s operation</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>WDOG is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>WDOG is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLKSRC</name>
<description>Selects clock source for the WDOG timer and other internal timing operations.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>WDOG clock sourced from LPO .</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>WDOG clock sourced from alternate clock source.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRQRSTEN</name>
<description>Used to enable the debug breadcrumbs feature</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>WDOG time-out generates reset only.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>WDOG time-out initially generates an interrupt. After WCT, it generates a reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WINEN</name>
<description>Enables Windowing mode.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Windowing mode is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Windowing mode is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ALLOWUPDATE</name>
<description>Enables updates to watchdog write-once registers, after the reset-triggered initial configuration window (WCT) closes, through unlock sequence</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No further updates allowed to WDOG write-once registers.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>WDOG write-once registers can be unlocked for updating.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGEN</name>
<description>Enables or disables WDOG in Debug mode.</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>WDOG is disabled in CPU Debug mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>WDOG is enabled in CPU Debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STOPEN</name>
<description>Enables or disables WDOG in Stop mode.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>WDOG is disabled in CPU Stop mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>WDOG is enabled in CPU Stop mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAITEN</name>
<description>Enables or disables WDOG in Wait mode.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>WDOG is disabled in CPU Wait mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>WDOG is enabled in CPU Wait mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TESTWDOG</name>
<description>Puts the watchdog in the functional test mode</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TESTSEL</name>
<description>Effective only if TESTWDOG is set. Selects the test to be run on the watchdog timer.</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Quick test. The timer runs in normal operation. You can load a small time-out value to do a quick test.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Byte test. Puts the timer in the byte test mode where individual bytes of the timer are enabled for operation and are compared for time-out against the corresponding byte of the programmed time-out value. Select the byte through BYTESEL[1:0] for testing.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BYTESEL</name>
<description>This 2-bit field selects the byte to be tested when the watchdog is in the byte test mode.</description>
<bitOffset>12</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Byte 0 selected</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Byte 1 selected</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Byte 2 selected</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Byte 3 selected</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DISTESTWDOG</name>
<description>Allows the WDOG&apos;s functional test mode to be disabled permanently</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>WDOG functional test mode is not disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>WDOG functional test mode is disabled permanently until reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STCTRLL</name>
<description>Watchdog Status and Control Register Low</description>
<addressOffset>0x2</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>INTFLG</name>
<description>Interrupt flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TOVALH</name>
<description>Watchdog Time-out Value Register High</description>
<addressOffset>0x4</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0x4C</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>TOVALHIGH</name>
<description>Defines the upper 16 bits of the 32-bit time-out value for the watchdog timer</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TOVALL</name>
<description>Watchdog Time-out Value Register Low</description>
<addressOffset>0x6</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0x4B4C</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>TOVALLOW</name>
<description>Defines the lower 16 bits of the 32-bit time-out value for the watchdog timer</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WINH</name>
<description>Watchdog Window Register High</description>
<addressOffset>0x8</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>WINHIGH</name>
<description>Defines the upper 16 bits of the 32-bit window for the windowed mode of operation of the watchdog</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WINL</name>
<description>Watchdog Window Register Low</description>
<addressOffset>0xA</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0x10</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>WINLOW</name>
<description>Defines the lower 16 bits of the 32-bit window for the windowed mode of operation of the watchdog</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>REFRESH</name>
<description>Watchdog Refresh register</description>
<addressOffset>0xC</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0xB480</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>WDOGREFRESH</name>
<description>Watchdog refresh register</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>UNLOCK</name>
<description>Watchdog Unlock register</description>
<addressOffset>0xE</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0xD928</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>WDOGUNLOCK</name>
<description>Writing the unlock sequence values to this register to makes the watchdog write-once registers writable again</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TMROUTH</name>
<description>Watchdog Timer Output Register High</description>
<addressOffset>0x10</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>TIMEROUTHIGH</name>
<description>Shows the value of the upper 16 bits of the watchdog timer.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TMROUTL</name>
<description>Watchdog Timer Output Register Low</description>
<addressOffset>0x12</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>TIMEROUTLOW</name>
<description>Shows the value of the lower 16 bits of the watchdog timer.</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RSTCNT</name>
<description>Watchdog Reset Count register</description>
<addressOffset>0x14</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>RSTCNT</name>
<description>Counts the number of times the watchdog resets the system</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>PRESC</name>
<description>Watchdog Prescaler register</description>
<addressOffset>0x16</addressOffset>
<size>16</size>
<access>read-write</access>
<resetValue>0x400</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>PRESCVAL</name>
<description>3-bit prescaler for the watchdog clock source</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>FLEXIO</name>
<description>Flexible I/O - universal I/O module for communication (UART, SPI, I2C, I2S) and PWM purposes.</description>
<prependToName>FLEXIO_</prependToName>
<baseAddress>0x4005F000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x510</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>FLEXIO</name>
<value>70</value>
</interrupt>
<registers>
<register>
<name>VERID</name>
<description>Version ID Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x1010000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FEATURE</name>
<description>Feature Specification Number</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Standard features implemented.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Supports state, logic and parallel modes.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MINOR</name>
<description>Minor Version Number</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MAJOR</name>
<description>Major Version Number</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>PARAM</name>
<description>Parameter Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x10080404</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SHIFTER</name>
<description>Shifter Number</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TIMER</name>
<description>Timer Number</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>PIN</name>
<description>Pin Number</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TRIGGER</name>
<description>Trigger Number</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>CTRL</name>
<description>FlexIO Control Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FLEXEN</name>
<description>FlexIO Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexIO module is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexIO module is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SWRST</name>
<description>Software Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Software reset is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Software reset is enabled, all FlexIO registers except the Control Register are reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FASTACC</name>
<description>Fast Access</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configures for normal register accesses to FlexIO</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configures for fast register accesses to FlexIO</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGE</name>
<description>Debug Enable</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexIO is disabled in debug modes.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexIO is enabled in debug modes</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOZEN</name>
<description>Doze Enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FlexIO enabled in Doze modes.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FlexIO disabled in Doze modes.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PIN</name>
<description>Pin State Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDI</name>
<description>Pin Data Input</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>SHIFTSTAT</name>
<description>Shifter Status Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SSF</name>
<description>Shifter Status Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Status flag is clear</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Status flag is set</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SHIFTERR</name>
<description>Shifter Error Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SEF</name>
<description>Shifter Error Flags</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Shifter Error Flag is clear</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Shifter Error Flag is set</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TIMSTAT</name>
<description>Timer Status Register</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TSF</name>
<description>Timer Status Flags</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timer Status Flag is clear</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timer Status Flag is set</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SHIFTSIEN</name>
<description>Shifter Status Interrupt Enable</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SSIE</name>
<description>Shifter Status Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Shifter Status Flag interrupt disabled</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Shifter Status Flag interrupt enabled</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SHIFTEIEN</name>
<description>Shifter Error Interrupt Enable</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SEIE</name>
<description>Shifter Error Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Shifter Error Flag interrupt disabled</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Shifter Error Flag interrupt enabled</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TIMIEN</name>
<description>Timer Interrupt Enable Register</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TEIE</name>
<description>Timer Status Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Timer Status Flag interrupt is disabled</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Timer Status Flag interrupt is enabled</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SHIFTSDEN</name>
<description>Shifter Status DMA Enable</description>
<addressOffset>0x30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SSDE</name>
<description>Shifter Status DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Shifter Status Flag DMA request is disabled</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Shifter Status Flag DMA request is enabled</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>SHIFTCTL%s</name>
<description>Shifter Control N Register</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SMOD</name>
<description>Shifter Mode</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Disabled.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Receive mode. Captures the current Shifter content into the SHIFTBUF on expiration of the Timer.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Transmit mode. Load SHIFTBUF contents into the Shifter on expiration of the Timer.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Match Store mode. Shifter data is compared to SHIFTBUF content on expiration of the Timer.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Match Continuous mode. Shifter data is continuously compared to SHIFTBUF contents.</description>
<value>#101</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PINPOL</name>
<description>Shifter Pin Polarity</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is active high</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is active low</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PINSEL</name>
<description>Shifter Pin Select</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PINCFG</name>
<description>Shifter Pin Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Shifter pin output disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Shifter pin open drain or bidirectional output enable</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Shifter pin bidirectional output data</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Shifter pin output</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMPOL</name>
<description>Timer Polarity</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Shift on posedge of Shift clock</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Shift on negedge of Shift clock</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMSEL</name>
<description>Timer Select</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>SHIFTCFG%s</name>
<description>Shifter Configuration N Register</description>
<addressOffset>0x100</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SSTART</name>
<description>Shifter Start bit</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Start bit disabled for transmitter/receiver/match store, transmitter loads data on enable</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Start bit disabled for transmitter/receiver/match store, transmitter loads data on first shift</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Transmitter outputs start bit value 0 before loading data on first shift, receiver/match store sets error flag if start bit is not 0</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Transmitter outputs start bit value 1 before loading data on first shift, receiver/match store sets error flag if start bit is not 1</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SSTOP</name>
<description>Shifter Stop bit</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Stop bit disabled for transmitter/receiver/match store</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Reserved for transmitter/receiver/match store</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Transmitter outputs stop bit value 0 on store, receiver/match store sets error flag if stop bit is not 0</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Transmitter outputs stop bit value 1 on store, receiver/match store sets error flag if stop bit is not 1</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INSRC</name>
<description>Input Source</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Shifter N+1 Output</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>SHIFTBUF%s</name>
<description>Shifter Buffer N Register</description>
<addressOffset>0x200</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SHIFTBUF</name>
<description>Shift Buffer</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>SHIFTBUFBIS%s</name>
<description>Shifter Buffer N Bit Swapped Register</description>
<addressOffset>0x280</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SHIFTBUFBIS</name>
<description>Shift Buffer</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>SHIFTBUFBYS%s</name>
<description>Shifter Buffer N Byte Swapped Register</description>
<addressOffset>0x300</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SHIFTBUFBYS</name>
<description>Shift Buffer</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>SHIFTBUFBBS%s</name>
<description>Shifter Buffer N Bit Byte Swapped Register</description>
<addressOffset>0x380</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SHIFTBUFBBS</name>
<description>Shift Buffer</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>TIMCTL%s</name>
<description>Timer Control N Register</description>
<addressOffset>0x400</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TIMOD</name>
<description>Timer Mode</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Timer Disabled.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Dual 8-bit counters baud/bit mode.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Dual 8-bit counters PWM mode.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Single 16-bit counter mode.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PINPOL</name>
<description>Timer Pin Polarity</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is active high</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is active low</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PINSEL</name>
<description>Timer Pin Select</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PINCFG</name>
<description>Timer Pin Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Timer pin output disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Timer pin open drain or bidirectional output enable</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Timer pin bidirectional output data</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Timer pin output</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSRC</name>
<description>Trigger Source</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>External trigger selected</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal trigger selected</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGPOL</name>
<description>Trigger Polarity</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trigger active high</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trigger active low</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRGSEL</name>
<description>Trigger Select</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>TIMCFG%s</name>
<description>Timer Configuration N Register</description>
<addressOffset>0x480</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TSTART</name>
<description>Timer Start Bit</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Start bit disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Start bit enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TSTOP</name>
<description>Timer Stop Bit</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Stop bit disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Stop bit is enabled on timer compare</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Stop bit is enabled on timer disable</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Stop bit is enabled on timer compare and timer disable</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMENA</name>
<description>Timer Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Timer always enabled</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Timer enabled on Timer N-1 enable</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Timer enabled on Trigger high</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Timer enabled on Trigger high and Pin high</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Timer enabled on Pin rising edge</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Timer enabled on Pin rising edge and Trigger high</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Timer enabled on Trigger rising edge</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Timer enabled on Trigger rising or falling edge</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMDIS</name>
<description>Timer Disable</description>
<bitOffset>12</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Timer never disabled</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Timer disabled on Timer N-1 disable</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Timer disabled on Timer compare</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Timer disabled on Timer compare and Trigger Low</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Timer disabled on Pin rising or falling edge</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Timer disabled on Pin rising or falling edge provided Trigger is high</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Timer disabled on Trigger falling edge</description>
<value>#110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMRST</name>
<description>Timer Reset</description>
<bitOffset>16</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Timer never reset</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Timer reset on Timer Pin equal to Timer Output</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Timer reset on Timer Trigger equal to Timer Output</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Timer reset on Timer Pin rising edge</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Timer reset on Trigger rising edge</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Timer reset on Trigger rising or falling edge</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMDEC</name>
<description>Timer Decrement</description>
<bitOffset>20</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Decrement counter on FlexIO clock, Shift clock equals Timer output.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Decrement counter on Trigger input (both edges), Shift clock equals Timer output.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Decrement counter on Pin input (both edges), Shift clock equals Pin input.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Decrement counter on Trigger input (both edges), Shift clock equals Trigger input.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMOUT</name>
<description>Timer Output</description>
<bitOffset>24</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Timer output is logic one when enabled and is not affected by timer reset</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Timer output is logic zero when enabled and is not affected by timer reset</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Timer output is logic one when enabled and on timer reset</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Timer output is logic zero when enabled and on timer reset</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<dim>4</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3</dimIndex>
<name>TIMCMP%s</name>
<description>Timer Compare N Register</description>
<addressOffset>0x500</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CMP</name>
<description>Timer Compare Value</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>EWM</name>
<description>External Watchdog Monitor</description>
<prependToName>EWM_</prependToName>
<baseAddress>0x40061000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x6</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>WDOG_EWM</name>
<value>22</value>
</interrupt>
<registers>
<register>
<name>CTRL</name>
<description>Control Register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>EWMEN</name>
<description>EWM enable.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ASSIN</name>
<description>EWM_in&apos;s Assertion State Select.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>INEN</name>
<description>Input Enable.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>INTEN</name>
<description>Interrupt Enable.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SERV</name>
<description>Service Register</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SERVICE</name>
<description>The EWM service mechanism requires the CPU to write two values to the SERV register: a first data byte of 0xB4, followed by a second data byte of 0x2C</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>CMPL</name>
<description>Compare Low Register</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>COMPAREL</name>
<description>To prevent runaway code from changing this field, software should write to this field after a CPU reset even if the (default) minimum service time is required</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CMPH</name>
<description>Compare High Register</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xFF</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>COMPAREH</name>
<description>To prevent runaway code from changing this field, software should write to this field after a CPU reset even if the (default) maximum service time is required</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CLKPRESCALER</name>
<description>Clock Prescaler Register</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CLK_DIV</name>
<description>Selected low power clock source for running the EWM counter can be prescaled as below</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>MCG</name>
<description>Multipurpose Clock Generator module</description>
<prependToName>MCG_</prependToName>
<baseAddress>0x40064000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xE</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>C1</name>
<description>MCG Control 1 Register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x4</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>IREFSTEN</name>
<description>Internal Reference Stop Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal reference clock is disabled in Stop mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal reference clock is enabled in Stop mode if IRCLKEN is set or if MCG is in FEI, FBI, or BLPI modes before entering Stop mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRCLKEN</name>
<description>Internal Reference Clock Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MCGIRCLK inactive.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MCGIRCLK active.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IREFS</name>
<description>Internal Reference Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>External reference clock is selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The slow internal reference clock is selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FRDIV</name>
<description>FLL External Reference Divider</description>
<bitOffset>3</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>If RANGE = 0 or OSCSEL=1 , Divide Factor is 1; for all other RANGE values, Divide Factor is 32.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>If RANGE = 0 or OSCSEL=1 , Divide Factor is 2; for all other RANGE values, Divide Factor is 64.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>If RANGE = 0 or OSCSEL=1 , Divide Factor is 4; for all other RANGE values, Divide Factor is 128.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>If RANGE = 0 or OSCSEL=1 , Divide Factor is 8; for all other RANGE values, Divide Factor is 256.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>If RANGE = 0 or OSCSEL=1 , Divide Factor is 16; for all other RANGE values, Divide Factor is 512.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>If RANGE = 0 or OSCSEL=1 , Divide Factor is 32; for all other RANGE values, Divide Factor is 1024.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>If RANGE = 0 or OSCSEL=1 , Divide Factor is 64; for all other RANGE values, Divide Factor is 1280 .</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>If RANGE = 0 or OSCSEL=1 , Divide Factor is 128; for all other RANGE values, Divide Factor is 1536 .</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLKS</name>
<description>Clock Source Select</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Encoding 0 - Output of FLL or PLL is selected (depends on PLLS control bit).</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Encoding 1 - Internal reference clock is selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Encoding 2 - External reference clock is selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Encoding 3 - Reserved.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C2</name>
<description>MCG Control 2 Register</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x80</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>IRCS</name>
<description>Internal Reference Clock Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slow internal reference clock selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Fast internal reference clock selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LP</name>
<description>Low Power Select</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FLL or PLL is not disabled in bypass modes.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FLL or PLL is disabled in bypass modes (lower power)</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EREFS</name>
<description>External Reference Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>External reference clock requested.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Oscillator requested.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HGO</name>
<description>High Gain Oscillator Select</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Configure crystal oscillator for low-power operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Configure crystal oscillator for high-gain operation.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RANGE</name>
<description>Frequency Range Select</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Encoding 0 - Low frequency range selected for the crystal oscillator .</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Encoding 1 - High frequency range selected for the crystal oscillator .</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FCFTRIM</name>
<description>Fast Internal Reference Clock Fine Trim</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LOCRE0</name>
<description>Loss of Clock Reset Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt request is generated on a loss of OSC0 external reference clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Generate a reset request on a loss of OSC0 external reference clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C3</name>
<description>MCG Control 3 Register</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>SCTRIM</name>
<description>Slow Internal Reference Clock Trim Setting</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>C4</name>
<description>MCG Control 4 Register</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xE0</resetMask>
<fields>
<field>
<name>SCFTRIM</name>
<description>Slow Internal Reference Clock Fine Trim</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FCTRIM</name>
<description>Fast Internal Reference Clock Trim Setting</description>
<bitOffset>1</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DRST_DRS</name>
<description>DCO Range Select</description>
<bitOffset>5</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Encoding 0 - Low range (reset default).</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Encoding 1 - Mid range.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Encoding 2 - Mid-high range.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Encoding 3 - High range.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMX32</name>
<description>DCO Maximum Frequency with 32.768 kHz Reference</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DCO has a default range of 25%.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DCO is fine-tuned for maximum frequency with 32.768 kHz reference.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C5</name>
<description>MCG Control 5 Register</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRDIV0</name>
<description>PLL External Reference Divider</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Divide Factor is 1</description>
<value>#00000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Divide Factor is 2</description>
<value>#00001</value>
</enumeratedValue>
<enumeratedValue>
<name>2</name>
<description>Divide Factor is 3</description>
<value>#00010</value>
</enumeratedValue>
<enumeratedValue>
<name>3</name>
<description>Divide Factor is 4</description>
<value>#00011</value>
</enumeratedValue>
<enumeratedValue>
<name>4</name>
<description>Divide Factor is 5</description>
<value>#00100</value>
</enumeratedValue>
<enumeratedValue>
<name>5</name>
<description>Divide Factor is 6</description>
<value>#00101</value>
</enumeratedValue>
<enumeratedValue>
<name>6</name>
<description>Divide Factor is 7</description>
<value>#00110</value>
</enumeratedValue>
<enumeratedValue>
<name>7</name>
<description>Divide Factor is 8</description>
<value>#00111</value>
</enumeratedValue>
<enumeratedValue>
<name>8</name>
<description>Divide Factor is 9</description>
<value>#01000</value>
</enumeratedValue>
<enumeratedValue>
<name>9</name>
<description>Divide Factor is 10</description>
<value>#01001</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Divide Factor is 11</description>
<value>#01010</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Divide Factor is 12</description>
<value>#01011</value>
</enumeratedValue>
<enumeratedValue>
<name>12</name>
<description>Divide Factor is 13</description>
<value>#01100</value>
</enumeratedValue>
<enumeratedValue>
<name>13</name>
<description>Divide Factor is 14</description>
<value>#01101</value>
</enumeratedValue>
<enumeratedValue>
<name>14</name>
<description>Divide Factor is 15</description>
<value>#01110</value>
</enumeratedValue>
<enumeratedValue>
<name>15</name>
<description>Divide Factor is 16</description>
<value>#01111</value>
</enumeratedValue>
<enumeratedValue>
<name>16</name>
<description>Divide Factor is 17</description>
<value>#10000</value>
</enumeratedValue>
<enumeratedValue>
<name>17</name>
<description>Divide Factor is 18</description>
<value>#10001</value>
</enumeratedValue>
<enumeratedValue>
<name>18</name>
<description>Divide Factor is 19</description>
<value>#10010</value>
</enumeratedValue>
<enumeratedValue>
<name>19</name>
<description>Divide Factor is 20</description>
<value>#10011</value>
</enumeratedValue>
<enumeratedValue>
<name>20</name>
<description>Divide Factor is 21</description>
<value>#10100</value>
</enumeratedValue>
<enumeratedValue>
<name>21</name>
<description>Divide Factor is 22</description>
<value>#10101</value>
</enumeratedValue>
<enumeratedValue>
<name>22</name>
<description>Divide Factor is 23</description>
<value>#10110</value>
</enumeratedValue>
<enumeratedValue>
<name>23</name>
<description>Divide Factor is 24</description>
<value>#10111</value>
</enumeratedValue>
<enumeratedValue>
<name>24</name>
<description>Divide Factor is 25</description>
<value>#11000</value>
</enumeratedValue>
<enumeratedValue>
<name>25</name>
<description>Divide Factor is 26</description>
<value>#11001</value>
</enumeratedValue>
<enumeratedValue>
<name>26</name>
<description>Divide Factor is 27</description>
<value>#11010</value>
</enumeratedValue>
<enumeratedValue>
<name>27</name>
<description>Divide Factor is 28</description>
<value>#11011</value>
</enumeratedValue>
<enumeratedValue>
<name>28</name>
<description>Divide Factor is 29</description>
<value>#11100</value>
</enumeratedValue>
<enumeratedValue>
<name>29</name>
<description>Divide Factor is 30</description>
<value>#11101</value>
</enumeratedValue>
<enumeratedValue>
<name>30</name>
<description>Divide Factor is 31</description>
<value>#11110</value>
</enumeratedValue>
<enumeratedValue>
<name>31</name>
<description>Divide Factor is 32</description>
<value>#11111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLLSTEN0</name>
<description>PLL Stop Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MCGPLLCLK is disabled in any of the Stop modes.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MCGPLLCLK is enabled if system is in Normal Stop mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLLCLKEN0</name>
<description>PLL Clock Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MCGPLLCLK is inactive.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MCGPLLCLK is active.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C6</name>
<description>MCG Control 6 Register</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>VDIV0</name>
<description>VCO 0 Divider</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Multiply Factor is 24</description>
<value>#00000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Multiply Factor is 25</description>
<value>#00001</value>
</enumeratedValue>
<enumeratedValue>
<name>2</name>
<description>Multiply Factor is 26</description>
<value>#00010</value>
</enumeratedValue>
<enumeratedValue>
<name>3</name>
<description>Multiply Factor is 27</description>
<value>#00011</value>
</enumeratedValue>
<enumeratedValue>
<name>4</name>
<description>Multiply Factor is 28</description>
<value>#00100</value>
</enumeratedValue>
<enumeratedValue>
<name>5</name>
<description>Multiply Factor is 29</description>
<value>#00101</value>
</enumeratedValue>
<enumeratedValue>
<name>6</name>
<description>Multiply Factor is 30</description>
<value>#00110</value>
</enumeratedValue>
<enumeratedValue>
<name>7</name>
<description>Multiply Factor is 31</description>
<value>#00111</value>
</enumeratedValue>
<enumeratedValue>
<name>8</name>
<description>Multiply Factor is 32</description>
<value>#01000</value>
</enumeratedValue>
<enumeratedValue>
<name>9</name>
<description>Multiply Factor is 33</description>
<value>#01001</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Multiply Factor is 34</description>
<value>#01010</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Multiply Factor is 35</description>
<value>#01011</value>
</enumeratedValue>
<enumeratedValue>
<name>12</name>
<description>Multiply Factor is 36</description>
<value>#01100</value>
</enumeratedValue>
<enumeratedValue>
<name>13</name>
<description>Multiply Factor is 37</description>
<value>#01101</value>
</enumeratedValue>
<enumeratedValue>
<name>14</name>
<description>Multiply Factor is 38</description>
<value>#01110</value>
</enumeratedValue>
<enumeratedValue>
<name>15</name>
<description>Multiply Factor is 39</description>
<value>#01111</value>
</enumeratedValue>
<enumeratedValue>
<name>16</name>
<description>Multiply Factor is 40</description>
<value>#10000</value>
</enumeratedValue>
<enumeratedValue>
<name>17</name>
<description>Multiply Factor is 41</description>
<value>#10001</value>
</enumeratedValue>
<enumeratedValue>
<name>18</name>
<description>Multiply Factor is 42</description>
<value>#10010</value>
</enumeratedValue>
<enumeratedValue>
<name>19</name>
<description>Multiply Factor is 43</description>
<value>#10011</value>
</enumeratedValue>
<enumeratedValue>
<name>20</name>
<description>Multiply Factor is 44</description>
<value>#10100</value>
</enumeratedValue>
<enumeratedValue>
<name>21</name>
<description>Multiply Factor is 45</description>
<value>#10101</value>
</enumeratedValue>
<enumeratedValue>
<name>22</name>
<description>Multiply Factor is 46</description>
<value>#10110</value>
</enumeratedValue>
<enumeratedValue>
<name>23</name>
<description>Multiply Factor is 47</description>
<value>#10111</value>
</enumeratedValue>
<enumeratedValue>
<name>24</name>
<description>Multiply Factor is 48</description>
<value>#11000</value>
</enumeratedValue>
<enumeratedValue>
<name>25</name>
<description>Multiply Factor is 49</description>
<value>#11001</value>
</enumeratedValue>
<enumeratedValue>
<name>26</name>
<description>Multiply Factor is 50</description>
<value>#11010</value>
</enumeratedValue>
<enumeratedValue>
<name>27</name>
<description>Multiply Factor is 51</description>
<value>#11011</value>
</enumeratedValue>
<enumeratedValue>
<name>28</name>
<description>Multiply Factor is 52</description>
<value>#11100</value>
</enumeratedValue>
<enumeratedValue>
<name>29</name>
<description>Multiply Factor is 53</description>
<value>#11101</value>
</enumeratedValue>
<enumeratedValue>
<name>30</name>
<description>Multiply Factor is 54</description>
<value>#11110</value>
</enumeratedValue>
<enumeratedValue>
<name>31</name>
<description>Multiply Factor is 55</description>
<value>#11111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CME0</name>
<description>Clock Monitor Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>External clock monitor is disabled for OSC0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>External clock monitor is enabled for OSC0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLLS</name>
<description>PLL Select</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FLL is selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PLL is selected (PRDIV 0 need to be programmed to the correct divider to generate a PLL reference clock in the range of 2-4 MHz prior to setting the PLLS bit).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOLIE0</name>
<description>Loss of Lock Interrrupt Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt request is generated on loss of lock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Generate an interrupt request on loss of lock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>S</name>
<description>MCG Status Register</description>
<addressOffset>0x6</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x10</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>IRCST</name>
<description>Internal Reference Clock Status</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Source of internal reference clock is the slow clock (32 kHz IRC).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Source of internal reference clock is the fast clock (4 MHz IRC).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OSCINIT0</name>
<description>OSC Initialization</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
<field>
<name>CLKST</name>
<description>Clock Mode Status</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Encoding 0 - Output of the FLL is selected (reset default).</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Encoding 1 - Internal reference clock is selected.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Encoding 2 - External reference clock is selected.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Encoding 3 - Output of the PLL is selected.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IREFST</name>
<description>Internal Reference Status</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Source of FLL reference clock is the external reference clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Source of FLL reference clock is the internal reference clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLLST</name>
<description>PLL Select Status</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Source of PLLS clock is FLL clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Source of PLLS clock is PLL output clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOCK0</name>
<description>Lock Status</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PLL is currently unlocked.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PLL is currently locked.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOLS0</name>
<description>Loss of Lock Status</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PLL has not lost lock since LOLS 0 was last cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PLL has lost lock since LOLS 0 was last cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SC</name>
<description>MCG Status and Control Register</description>
<addressOffset>0x8</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x2</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LOCS0</name>
<description>OSC0 Loss of Clock Status</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Loss of OSC0 has not occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Loss of OSC0 has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FCRDIV</name>
<description>Fast Clock Internal Reference Divider</description>
<bitOffset>1</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Divide Factor is 1</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Divide Factor is 2.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Divide Factor is 4.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Divide Factor is 8.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Divide Factor is 16</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Divide Factor is 32</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Divide Factor is 64</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Divide Factor is 128.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FLTPRSRV</name>
<description>FLL Filter Preserve Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FLL filter and FLL frequency will reset on changes to currect clock mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Fll filter and FLL frequency retain their previous values during new clock mode change.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ATMF</name>
<description>Automatic Trim Machine Fail Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Automatic Trim Machine completed normally.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Automatic Trim Machine failed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ATMS</name>
<description>Automatic Trim Machine Select</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>32 kHz Internal Reference Clock selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>4 MHz Internal Reference Clock selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ATME</name>
<description>Automatic Trim Machine Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Auto Trim Machine disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Auto Trim Machine enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ATCVH</name>
<description>MCG Auto Trim Compare Value High Register</description>
<addressOffset>0xA</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ATCVH</name>
<description>ATM Compare Value High</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ATCVL</name>
<description>MCG Auto Trim Compare Value Low Register</description>
<addressOffset>0xB</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ATCVL</name>
<description>ATM Compare Value Low</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>C7</name>
<description>MCG Control 7 Register</description>
<addressOffset>0xC</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>OSCSEL</name>
<description>MCG OSC Clock Select</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Selects Oscillator (OSCCLK0).</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Selects 32 kHz RTC Oscillator.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Selects Oscillator (OSCCLK1).</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C8</name>
<description>MCG Control 8 Register</description>
<addressOffset>0xD</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x80</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LOCS1</name>
<description>RTC Loss of Clock Status</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Loss of RTC has not occur.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Loss of RTC has occur</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CME1</name>
<description>Clock Monitor Enable1</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>External clock monitor is disabled for RTC clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>External clock monitor is enabled for RTC clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOLRE</name>
<description>PLL Loss of Lock Reset Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt request is generated on a PLL loss of lock indication. The PLL loss of lock interrupt enable bit must also be set to generate the interrupt request.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Generate a reset request on a PLL loss of lock indication.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOCRE1</name>
<description>Loss of Clock Reset Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt request is generated on a loss of RTC external reference clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Generate a reset request on a loss of RTC external reference clock</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>OSC</name>
<description>Oscillator</description>
<prependToName>OSC_</prependToName>
<baseAddress>0x40065000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x3</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>CR</name>
<description>OSC Control Register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SC16P</name>
<description>Oscillator 16 pF Capacitor Load Configure</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the selection.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Add 16 pF capacitor to the oscillator load.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SC8P</name>
<description>Oscillator 8 pF Capacitor Load Configure</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the selection.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Add 8 pF capacitor to the oscillator load.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SC4P</name>
<description>Oscillator 4 pF Capacitor Load Configure</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the selection.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Add 4 pF capacitor to the oscillator load.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SC2P</name>
<description>Oscillator 2 pF Capacitor Load Configure</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the selection.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Add 2 pF capacitor to the oscillator load.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EREFSTEN</name>
<description>External Reference Stop Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>External reference clock is disabled in Stop mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>External reference clock stays enabled in Stop mode if ERCLKEN is set before entering Stop mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERCLKEN</name>
<description>External Reference Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>External reference clock is inactive.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>External reference clock is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>DIV</name>
<description>OSC_DIV</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ERPS</name>
<description>ERCLK prescaler</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>The divisor ratio is 1.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>The divisor ratio is 2.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>The divisor ratio is 4.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>The divisor ratio is 8.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>LPI2C0</name>
<description>Low Power Inter-Integrated Circuit</description>
<groupName>LPI2C</groupName>
<prependToName>LPI2C0_</prependToName>
<baseAddress>0x40066000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x174</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>LPI2C0</name>
<value>24</value>
</interrupt>
<registers>
<register>
<name>VERID</name>
<description>Version ID Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x1000003</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FEATURE</name>
<description>Feature Specification Number</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>10</name>
<description>Master only with standard feature set.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Master and slave with standard feature set.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MINOR</name>
<description>Minor Version Number</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MAJOR</name>
<description>Major Version Number</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>PARAM</name>
<description>Parameter Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x202</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MTXFIFO</name>
<description>Master Transmit FIFO Size</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MRXFIFO</name>
<description>Master Receive FIFO Size</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>MCR</name>
<description>Master Control Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MEN</name>
<description>Master Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master logic is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master logic is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RST</name>
<description>Software Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master logic is not reset.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master logic is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOZEN</name>
<description>Doze mode enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master is enabled in Doze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master is disabled in Doze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGEN</name>
<description>Debug Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master is disabled in debug mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master is enabled in debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RTF</name>
<description>Reset Transmit FIFO</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit FIFO is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RRF</name>
<description>Reset Receive FIFO</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MSR</name>
<description>Master Status Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDF</name>
<description>Transmit Data Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data not requested.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data is requested.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDF</name>
<description>Receive Data Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive Data is not ready.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data is ready.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EPF</name>
<description>End Packet Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master has not generated a STOP or Repeated START condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master has generated a STOP or Repeated START condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SDF</name>
<description>STOP Detect Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master has not generated a STOP condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master has generated a STOP condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NDF</name>
<description>NACK Detect Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Unexpected NACK not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Unexpected NACK was detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ALF</name>
<description>Arbitration Lost Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master has not lost arbitration.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master has lost arbitration.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEF</name>
<description>FIFO Error Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master sending or receiving data without START condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLTF</name>
<description>Pin Low Timeout Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin low timeout has not occurred or is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin low timeout has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMF</name>
<description>Data Match Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Have not received matching data.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Have received matching data.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MBF</name>
<description>Master Busy Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>I2C Master is idle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2C Master is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BBF</name>
<description>Bus Busy Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>I2C Bus is idle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2C Bus is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MIER</name>
<description>Master Interrupt Enable Register</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDIE</name>
<description>Transmit Data Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDIE</name>
<description>Receive Data Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EPIE</name>
<description>End Packet Interrupt Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SDIE</name>
<description>STOP Detect Interrupt Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NDIE</name>
<description>NACK Detect Interrupt Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ALIE</name>
<description>Arbitration Lost Interrupt Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>FIFO Error Interrupt Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLTIE</name>
<description>Pin Low Timeout Interrupt Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMIE</name>
<description>Data Match Interrupt Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MDER</name>
<description>Master DMA Enable Register</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDDE</name>
<description>Transmit Data DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDDE</name>
<description>Receive Data DMA Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MCFGR0</name>
<description>Master Configuration Register 0</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>HREN</name>
<description>Host Request Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Host request input is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Host request input is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRPOL</name>
<description>Host Request Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Active low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Active high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRSEL</name>
<description>Host Request Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Host request input is pin LPI2C_HREQ.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Host request input is input trigger.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CIRFIFO</name>
<description>Circular FIFO Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Circular FIFO is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Circular FIFO is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDMO</name>
<description>Receive Data Match Only</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Received data is stored in the receive FIFO as normal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Received data is discarded unless the RMF is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MCFGR1</name>
<description>Master Configuration Register 1</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PRESCALE</name>
<description>Prescaler</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Divide by 1.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Divide by 2.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Divide by 4.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Divide by 8.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Divide by 16.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Divide by 32.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Divide by 64.</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Divide by 128.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AUTOSTOP</name>
<description>Automatic STOP Generation</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>STOP condition is automatically generated whenever the transmit FIFO is empty and LPI2C master is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IGNACK</name>
<description>When set, the received NACK field is ignored and assumed to be ACK</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LPI2C Master will receive ACK and NACK normally.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPI2C Master will treat a received NACK as if it was an ACK.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMECFG</name>
<description>Timeout Configuration</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Low Timeout Flag will set if SCL is low for longer than the configured timeout.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Low Timeout Flag will set if either SCL or SDA is low for longer than the configured timeout.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MATCFG</name>
<description>Match Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Match disabled.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Match enabled (1st data word equals MATCH0 OR MATCH1).</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Match enabled (any data word equals MATCH0 OR MATCH1).</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Match enabled (1st data word equals MATCH0 AND 2nd data word equals MATCH1).</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Match enabled (any data word equals MATCH0 AND next data word equals MATCH1).</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Match enabled (1st data word AND MATCH1 equals MATCH0 AND MATCH1).</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Match enabled (any data word AND MATCH1 equals MATCH0 AND MATCH1).</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PINCFG</name>
<description>Pin Configuration</description>
<bitOffset>24</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>LPI2C configured for 2-pin open drain mode.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>LPI2C configured for 2-pin output only mode (ultra-fast mode).</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>LPI2C configured for 2-pin push-pull mode.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>LPI2C configured for 4-pin push-pull mode.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>LPI2C configured for 2-pin open drain mode with separate LPI2C slave.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>LPI2C configured for 2-pin output only mode (ultra-fast mode) with separate LPI2C slave.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>LPI2C configured for 2-pin push-pull mode with separate LPI2C slave.</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>LPI2C configured for 4-pin push-pull mode (inverted outputs).</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MCFGR2</name>
<description>Master Configuration Register 2</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>BUSIDLE</name>
<description>Bus Idle Timeout</description>
<bitOffset>0</bitOffset>
<bitWidth>12</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FILTSCL</name>
<description>Glitch Filter SCL</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FILTSDA</name>
<description>Glitch Filter SDA</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MCFGR3</name>
<description>Master Configuration Register 3</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PINLOW</name>
<description>Pin Low Timeout</description>
<bitOffset>8</bitOffset>
<bitWidth>12</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MDMR</name>
<description>Master Data Match Register</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MATCH0</name>
<description>Match 0 Value</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MATCH1</name>
<description>Match 1 Value</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MCCR0</name>
<description>Master Clock Configuration Register 0</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLKLO</name>
<description>Clock Low Period</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CLKHI</name>
<description>Clock High Period</description>
<bitOffset>8</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SETHOLD</name>
<description>Setup Hold Delay</description>
<bitOffset>16</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATAVD</name>
<description>Data Valid Delay</description>
<bitOffset>24</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MCCR1</name>
<description>Master Clock Configuration Register 1</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLKLO</name>
<description>Clock Low Period</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CLKHI</name>
<description>Clock High Period</description>
<bitOffset>8</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SETHOLD</name>
<description>Setup Hold Delay</description>
<bitOffset>16</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATAVD</name>
<description>Data Valid Delay</description>
<bitOffset>24</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MFCR</name>
<description>Master FIFO Control Register</description>
<addressOffset>0x58</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXWATER</name>
<description>Transmit FIFO Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RXWATER</name>
<description>Receive FIFO Watermark</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MFSR</name>
<description>Master FIFO Status Register</description>
<addressOffset>0x5C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXCOUNT</name>
<description>Transmit FIFO Count</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RXCOUNT</name>
<description>Receive FIFO Count</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>MTDR</name>
<description>Master Transmit Data Register</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>write-only</access>
</field>
<field>
<name>CMD</name>
<description>Command Data</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Transmit DATA[7:0].</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Receive (DATA[7:0] + 1) bytes.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Generate STOP condition.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Receive and discard (DATA[7:0] + 1) bytes.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Generate (repeated) START and transmit address in DATA[7:0].</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Generate (repeated) START and transmit address in DATA[7:0]. This transfer expects a NACK to be returned.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Generate (repeated) START and transmit address in DATA[7:0] using high speed mode.</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Generate (repeated) START and transmit address in DATA[7:0] using high speed mode. This transfer expects a NACK to be returned.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MRDR</name>
<description>Master Receive Data Register</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x4000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA</name>
<description>Receive Data</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RXEMPTY</name>
<description>RX Empty</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive FIFO is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCR</name>
<description>Slave Control Register</description>
<addressOffset>0x110</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SEN</name>
<description>Slave Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave mode is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave mode is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RST</name>
<description>Software Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave logic is not reset.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave logic is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTEN</name>
<description>Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable digital filter and output delay counter for slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable digital filter and output delay counter for slave mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTDZ</name>
<description>Filter Doze Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Filter remains enabled in Doze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Filter is disabled in Doze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RTF</name>
<description>Reset Transmit FIFO</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit Data Register is now empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RRF</name>
<description>Reset Receive FIFO</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive Data Register is now empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SSR</name>
<description>Slave Status Register</description>
<addressOffset>0x114</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDF</name>
<description>Transmit Data Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data not requested.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data is requested.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDF</name>
<description>Receive Data Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive Data is not ready.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data is ready.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AVF</name>
<description>Address Valid Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Address Status Register is not valid.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Address Status Register is valid.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TAF</name>
<description>Transmit ACK Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit ACK/NACK is not required.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit ACK/NACK is required.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSF</name>
<description>Repeated Start Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave has not detected a Repeated START condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave has detected a Repeated START condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SDF</name>
<description>STOP Detect Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave has not detected a STOP condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave has detected a STOP condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BEF</name>
<description>Bit Error Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave has not detected a bit error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave has detected a bit error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEF</name>
<description>FIFO Error Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FIFO underflow or overflow not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FIFO underflow or overflow detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AM0F</name>
<description>Address Match 0 Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Have not received ADDR0 matching address.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Have received ADDR0 matching address.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AM1F</name>
<description>Address Match 1 Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Have not received ADDR1 or ADDR0/ADDR1 range matching address.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Have received ADDR1 or ADDR0/ADDR1 range matching address.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GCF</name>
<description>General Call Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave has not detected the General Call Address or General Call Address disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave has detected the General Call Address.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SARF</name>
<description>SMBus Alert Response Flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>SMBus Alert Response disabled or not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>SMBus Alert Response enabled and detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SBF</name>
<description>Slave Busy Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>I2C Slave is idle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2C Slave is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BBF</name>
<description>Bus Busy Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>I2C Bus is idle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2C Bus is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SIER</name>
<description>Slave Interrupt Enable Register</description>
<addressOffset>0x118</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDIE</name>
<description>Transmit Data Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDIE</name>
<description>Receive Data Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AVIE</name>
<description>Address Valid Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TAIE</name>
<description>Transmit ACK Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSIE</name>
<description>Repeated Start Interrupt Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SDIE</name>
<description>STOP Detect Interrupt Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BEIE</name>
<description>Bit Error Interrupt Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>FIFO Error Interrupt Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AM0IE</name>
<description>Address Match 0 Interrupt Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AM1F</name>
<description>Address Match 1 Interrupt Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GCIE</name>
<description>General Call Interrupt Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SARIE</name>
<description>SMBus Alert Response Interrupt Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SDER</name>
<description>Slave DMA Enable Register</description>
<addressOffset>0x11C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDDE</name>
<description>Transmit Data DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDDE</name>
<description>Receive Data DMA Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AVDE</name>
<description>Address Valid DMA Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCFGR1</name>
<description>Slave Configuration Register 1</description>
<addressOffset>0x124</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADRSTALL</name>
<description>Address SCL Stall</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock stretching disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock stretching enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXSTALL</name>
<description>RX SCL Stall</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock stretching disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock stretching enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXDSTALL</name>
<description>TX Data SCL Stall</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock stretching disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock stretching enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACKSTALL</name>
<description>ACK SCL Stall</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock stretching disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock stretching enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GCEN</name>
<description>General Call Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>General Call address is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>General call address is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SAEN</name>
<description>SMBus Alert Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables match on SMBus Alert.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables match on SMBus Alert.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXCFG</name>
<description>Transmit Flag Configuration</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit Data Flag will only assert during a slave-transmit transfer when the transmit data register is empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit Data Flag will assert whenever the transmit data register is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXCFG</name>
<description>Receive Data Configuration</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reading the receive data register will return receive data and clear the receive data flag.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reading the receive data register when the address valid flag is set will return the address status register and clear the address valid flag. Reading the receive data register when the address valid flag is clear will return receive data and clear the receive data flag.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IGNACK</name>
<description>Ignore NACK</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave will end transfer when NACK detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave will not end transfer when NACK detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HSMEN</name>
<description>High Speed Mode Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables detection of Hs-mode master code.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables detection of Hs-mode master code.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADDRCFG</name>
<description>Address Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Address match 0 (7-bit).</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Address match 0 (10-bit).</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Address match 0 (7-bit) or Address match 1 (7-bit).</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Address match 0 (10-bit) or Address match 1 (10-bit).</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Address match 0 (7-bit) or Address match 1 (10-bit).</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Address match 0 (10-bit) or Address match 1 (7-bit).</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>From Address match 0 (7-bit) to Address match 1 (7-bit).</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>From Address match 0 (10-bit) to Address match 1 (10-bit).</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCFGR2</name>
<description>Slave Configuration Register 2</description>
<addressOffset>0x128</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLKHOLD</name>
<description>Clock Hold Time</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATAVD</name>
<description>Data Valid Delay</description>
<bitOffset>8</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FILTSCL</name>
<description>Glitch Filter SCL</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FILTSDA</name>
<description>Glitch Filter SDA</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SAMR</name>
<description>Slave Address Match Register</description>
<addressOffset>0x140</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADDR0</name>
<description>Address 0 Value</description>
<bitOffset>1</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ADDR1</name>
<description>Address 1 Value</description>
<bitOffset>17</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SASR</name>
<description>Slave Address Status Register</description>
<addressOffset>0x150</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x4000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RADDR</name>
<description>Received Address</description>
<bitOffset>0</bitOffset>
<bitWidth>11</bitWidth>
<access>read-only</access>
</field>
<field>
<name>ANV</name>
<description>Address Not Valid</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RADDR is valid.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RADDR is not valid.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STAR</name>
<description>Slave Transmit ACK Register</description>
<addressOffset>0x154</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXNACK</name>
<description>Transmit NACK</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit ACK for received word.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit NACK for received word.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STDR</name>
<description>Slave Transmit Data Register</description>
<addressOffset>0x160</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>SRDR</name>
<description>Slave Receive Data Register</description>
<addressOffset>0x170</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x4000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA</name>
<description>Receive Data</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RXEMPTY</name>
<description>RX Empty</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The Receive Data Register is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The Receive Data Register is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SOF</name>
<description>Start Of Frame</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Indicates this is not the first data word since a (repeated) START or STOP condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Indicates this is the first data word since a (repeated) START or STOP condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>LPI2C1</name>
<description>Low Power Inter-Integrated Circuit</description>
<groupName>LPI2C</groupName>
<prependToName>LPI2C1_</prependToName>
<baseAddress>0x40067000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x174</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>LPI2C1</name>
<value>25</value>
</interrupt>
<registers>
<register>
<name>VERID</name>
<description>Version ID Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x1000003</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FEATURE</name>
<description>Feature Specification Number</description>
<bitOffset>0</bitOffset>
<bitWidth>16</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>10</name>
<description>Master only with standard feature set.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Master and slave with standard feature set.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MINOR</name>
<description>Minor Version Number</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MAJOR</name>
<description>Major Version Number</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>PARAM</name>
<description>Parameter Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x202</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MTXFIFO</name>
<description>Master Transmit FIFO Size</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>MRXFIFO</name>
<description>Master Receive FIFO Size</description>
<bitOffset>8</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>MCR</name>
<description>Master Control Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MEN</name>
<description>Master Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master logic is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master logic is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RST</name>
<description>Software Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master logic is not reset.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master logic is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DOZEN</name>
<description>Doze mode enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master is enabled in Doze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master is disabled in Doze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DBGEN</name>
<description>Debug Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master is disabled in debug mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master is enabled in debug mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RTF</name>
<description>Reset Transmit FIFO</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit FIFO is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RRF</name>
<description>Reset Receive FIFO</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MSR</name>
<description>Master Status Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDF</name>
<description>Transmit Data Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data not requested.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data is requested.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDF</name>
<description>Receive Data Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive Data is not ready.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data is ready.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EPF</name>
<description>End Packet Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master has not generated a STOP or Repeated START condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master has generated a STOP or Repeated START condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SDF</name>
<description>STOP Detect Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master has not generated a STOP condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master has generated a STOP condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NDF</name>
<description>NACK Detect Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Unexpected NACK not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Unexpected NACK was detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ALF</name>
<description>Arbitration Lost Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Master has not lost arbitration.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master has lost arbitration.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEF</name>
<description>FIFO Error Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Master sending or receiving data without START condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLTF</name>
<description>Pin Low Timeout Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin low timeout has not occurred or is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin low timeout has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMF</name>
<description>Data Match Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Have not received matching data.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Have received matching data.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MBF</name>
<description>Master Busy Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>I2C Master is idle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2C Master is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BBF</name>
<description>Bus Busy Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>I2C Bus is idle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2C Bus is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MIER</name>
<description>Master Interrupt Enable Register</description>
<addressOffset>0x18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDIE</name>
<description>Transmit Data Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDIE</name>
<description>Receive Data Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EPIE</name>
<description>End Packet Interrupt Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SDIE</name>
<description>STOP Detect Interrupt Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NDIE</name>
<description>NACK Detect Interrupt Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ALIE</name>
<description>Arbitration Lost Interrupt Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>FIFO Error Interrupt Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PLTIE</name>
<description>Pin Low Timeout Interrupt Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMIE</name>
<description>Data Match Interrupt Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MDER</name>
<description>Master DMA Enable Register</description>
<addressOffset>0x1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDDE</name>
<description>Transmit Data DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDDE</name>
<description>Receive Data DMA Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MCFGR0</name>
<description>Master Configuration Register 0</description>
<addressOffset>0x20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>HREN</name>
<description>Host Request Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Host request input is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Host request input is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRPOL</name>
<description>Host Request Polarity</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Active low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Active high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HRSEL</name>
<description>Host Request Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Host request input is pin LPI2C_HREQ.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Host request input is input trigger.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CIRFIFO</name>
<description>Circular FIFO Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Circular FIFO is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Circular FIFO is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDMO</name>
<description>Receive Data Match Only</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Received data is stored in the receive FIFO as normal.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Received data is discarded unless the RMF is set.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MCFGR1</name>
<description>Master Configuration Register 1</description>
<addressOffset>0x24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PRESCALE</name>
<description>Prescaler</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Divide by 1.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Divide by 2.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Divide by 4.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Divide by 8.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Divide by 16.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Divide by 32.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Divide by 64.</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Divide by 128.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AUTOSTOP</name>
<description>Automatic STOP Generation</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>STOP condition is automatically generated whenever the transmit FIFO is empty and LPI2C master is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IGNACK</name>
<description>When set, the received NACK field is ignored and assumed to be ACK</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LPI2C Master will receive ACK and NACK normally.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPI2C Master will treat a received NACK as if it was an ACK.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIMECFG</name>
<description>Timeout Configuration</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Low Timeout Flag will set if SCL is low for longer than the configured timeout.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Low Timeout Flag will set if either SCL or SDA is low for longer than the configured timeout.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MATCFG</name>
<description>Match Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Match disabled.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Match enabled (1st data word equals MATCH0 OR MATCH1).</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Match enabled (any data word equals MATCH0 OR MATCH1).</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Match enabled (1st data word equals MATCH0 AND 2nd data word equals MATCH1).</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Match enabled (any data word equals MATCH0 AND next data word equals MATCH1).</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Match enabled (1st data word AND MATCH1 equals MATCH0 AND MATCH1).</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Match enabled (any data word AND MATCH1 equals MATCH0 AND MATCH1).</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PINCFG</name>
<description>Pin Configuration</description>
<bitOffset>24</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>LPI2C configured for 2-pin open drain mode.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>LPI2C configured for 2-pin output only mode (ultra-fast mode).</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>LPI2C configured for 2-pin push-pull mode.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>LPI2C configured for 4-pin push-pull mode.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>LPI2C configured for 2-pin open drain mode with separate LPI2C slave.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>LPI2C configured for 2-pin output only mode (ultra-fast mode) with separate LPI2C slave.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>LPI2C configured for 2-pin push-pull mode with separate LPI2C slave.</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>LPI2C configured for 4-pin push-pull mode (inverted outputs).</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MCFGR2</name>
<description>Master Configuration Register 2</description>
<addressOffset>0x28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>BUSIDLE</name>
<description>Bus Idle Timeout</description>
<bitOffset>0</bitOffset>
<bitWidth>12</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FILTSCL</name>
<description>Glitch Filter SCL</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FILTSDA</name>
<description>Glitch Filter SDA</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MCFGR3</name>
<description>Master Configuration Register 3</description>
<addressOffset>0x2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PINLOW</name>
<description>Pin Low Timeout</description>
<bitOffset>8</bitOffset>
<bitWidth>12</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MDMR</name>
<description>Master Data Match Register</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MATCH0</name>
<description>Match 0 Value</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>MATCH1</name>
<description>Match 1 Value</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MCCR0</name>
<description>Master Clock Configuration Register 0</description>
<addressOffset>0x48</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLKLO</name>
<description>Clock Low Period</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CLKHI</name>
<description>Clock High Period</description>
<bitOffset>8</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SETHOLD</name>
<description>Setup Hold Delay</description>
<bitOffset>16</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATAVD</name>
<description>Data Valid Delay</description>
<bitOffset>24</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MCCR1</name>
<description>Master Clock Configuration Register 1</description>
<addressOffset>0x50</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLKLO</name>
<description>Clock Low Period</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CLKHI</name>
<description>Clock High Period</description>
<bitOffset>8</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SETHOLD</name>
<description>Setup Hold Delay</description>
<bitOffset>16</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATAVD</name>
<description>Data Valid Delay</description>
<bitOffset>24</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MFCR</name>
<description>Master FIFO Control Register</description>
<addressOffset>0x58</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXWATER</name>
<description>Transmit FIFO Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RXWATER</name>
<description>Receive FIFO Watermark</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MFSR</name>
<description>Master FIFO Status Register</description>
<addressOffset>0x5C</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXCOUNT</name>
<description>Transmit FIFO Count</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RXCOUNT</name>
<description>Receive FIFO Count</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>MTDR</name>
<description>Master Transmit Data Register</description>
<addressOffset>0x60</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>write-only</access>
</field>
<field>
<name>CMD</name>
<description>Command Data</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Transmit DATA[7:0].</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Receive (DATA[7:0] + 1) bytes.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Generate STOP condition.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Receive and discard (DATA[7:0] + 1) bytes.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Generate (repeated) START and transmit address in DATA[7:0].</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Generate (repeated) START and transmit address in DATA[7:0]. This transfer expects a NACK to be returned.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Generate (repeated) START and transmit address in DATA[7:0] using high speed mode.</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>Generate (repeated) START and transmit address in DATA[7:0] using high speed mode. This transfer expects a NACK to be returned.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MRDR</name>
<description>Master Receive Data Register</description>
<addressOffset>0x70</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x4000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA</name>
<description>Receive Data</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RXEMPTY</name>
<description>RX Empty</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive FIFO is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCR</name>
<description>Slave Control Register</description>
<addressOffset>0x110</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SEN</name>
<description>Slave Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave mode is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave mode is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RST</name>
<description>Software Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave logic is not reset.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave logic is reset.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTEN</name>
<description>Filter Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable digital filter and output delay counter for slave mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable digital filter and output delay counter for slave mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTDZ</name>
<description>Filter Doze Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Filter remains enabled in Doze mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Filter is disabled in Doze mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RTF</name>
<description>Reset Transmit FIFO</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit Data Register is now empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RRF</name>
<description>Reset Receive FIFO</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive Data Register is now empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SSR</name>
<description>Slave Status Register</description>
<addressOffset>0x114</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDF</name>
<description>Transmit Data Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data not requested.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data is requested.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDF</name>
<description>Receive Data Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive Data is not ready.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data is ready.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AVF</name>
<description>Address Valid Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Address Status Register is not valid.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Address Status Register is valid.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TAF</name>
<description>Transmit ACK Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit ACK/NACK is not required.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit ACK/NACK is required.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSF</name>
<description>Repeated Start Flag</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave has not detected a Repeated START condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave has detected a Repeated START condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SDF</name>
<description>STOP Detect Flag</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave has not detected a STOP condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave has detected a STOP condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BEF</name>
<description>Bit Error Flag</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave has not detected a bit error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave has detected a bit error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEF</name>
<description>FIFO Error Flag</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FIFO underflow or overflow not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FIFO underflow or overflow detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AM0F</name>
<description>Address Match 0 Flag</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Have not received ADDR0 matching address.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Have received ADDR0 matching address.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AM1F</name>
<description>Address Match 1 Flag</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Have not received ADDR1 or ADDR0/ADDR1 range matching address.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Have received ADDR1 or ADDR0/ADDR1 range matching address.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GCF</name>
<description>General Call Flag</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave has not detected the General Call Address or General Call Address disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave has detected the General Call Address.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SARF</name>
<description>SMBus Alert Response Flag</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>SMBus Alert Response disabled or not detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>SMBus Alert Response enabled and detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SBF</name>
<description>Slave Busy Flag</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>I2C Slave is idle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2C Slave is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BBF</name>
<description>Bus Busy Flag</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>I2C Bus is idle.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>I2C Bus is busy.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SIER</name>
<description>Slave Interrupt Enable Register</description>
<addressOffset>0x118</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDIE</name>
<description>Transmit Data Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDIE</name>
<description>Receive Data Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AVIE</name>
<description>Address Valid Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TAIE</name>
<description>Transmit ACK Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSIE</name>
<description>Repeated Start Interrupt Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SDIE</name>
<description>STOP Detect Interrupt Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BEIE</name>
<description>Bit Error Interrupt Enable</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>FIFO Error Interrupt Enable</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AM0IE</name>
<description>Address Match 0 Interrupt Enable</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AM1F</name>
<description>Address Match 1 Interrupt Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GCIE</name>
<description>General Call Interrupt Enable</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SARIE</name>
<description>SMBus Alert Response Interrupt Enable</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SDER</name>
<description>Slave DMA Enable Register</description>
<addressOffset>0x11C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TDDE</name>
<description>Transmit Data DMA Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDDE</name>
<description>Receive Data DMA Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AVDE</name>
<description>Address Valid DMA Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA request disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCFGR1</name>
<description>Slave Configuration Register 1</description>
<addressOffset>0x124</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADRSTALL</name>
<description>Address SCL Stall</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock stretching disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock stretching enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXSTALL</name>
<description>RX SCL Stall</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock stretching disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock stretching enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXDSTALL</name>
<description>TX Data SCL Stall</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock stretching disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock stretching enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACKSTALL</name>
<description>ACK SCL Stall</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Clock stretching disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Clock stretching enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GCEN</name>
<description>General Call Enable</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>General Call address is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>General call address is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SAEN</name>
<description>SMBus Alert Enable</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables match on SMBus Alert.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables match on SMBus Alert.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXCFG</name>
<description>Transmit Flag Configuration</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit Data Flag will only assert during a slave-transmit transfer when the transmit data register is empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit Data Flag will assert whenever the transmit data register is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXCFG</name>
<description>Receive Data Configuration</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reading the receive data register will return receive data and clear the receive data flag.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reading the receive data register when the address valid flag is set will return the address status register and clear the address valid flag. Reading the receive data register when the address valid flag is clear will return receive data and clear the receive data flag.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IGNACK</name>
<description>Ignore NACK</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Slave will end transfer when NACK detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Slave will not end transfer when NACK detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HSMEN</name>
<description>High Speed Mode Enable</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables detection of Hs-mode master code.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables detection of Hs-mode master code.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADDRCFG</name>
<description>Address Configuration</description>
<bitOffset>16</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Address match 0 (7-bit).</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Address match 0 (10-bit).</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Address match 0 (7-bit) or Address match 1 (7-bit).</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Address match 0 (10-bit) or Address match 1 (10-bit).</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Address match 0 (7-bit) or Address match 1 (10-bit).</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Address match 0 (10-bit) or Address match 1 (7-bit).</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>From Address match 0 (7-bit) to Address match 1 (7-bit).</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>From Address match 0 (10-bit) to Address match 1 (10-bit).</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SCFGR2</name>
<description>Slave Configuration Register 2</description>
<addressOffset>0x128</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLKHOLD</name>
<description>Clock Hold Time</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DATAVD</name>
<description>Data Valid Delay</description>
<bitOffset>8</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FILTSCL</name>
<description>Glitch Filter SCL</description>
<bitOffset>16</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>FILTSDA</name>
<description>Glitch Filter SDA</description>
<bitOffset>24</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SAMR</name>
<description>Slave Address Match Register</description>
<addressOffset>0x140</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADDR0</name>
<description>Address 0 Value</description>
<bitOffset>1</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ADDR1</name>
<description>Address 1 Value</description>
<bitOffset>17</bitOffset>
<bitWidth>10</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SASR</name>
<description>Slave Address Status Register</description>
<addressOffset>0x150</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x4000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RADDR</name>
<description>Received Address</description>
<bitOffset>0</bitOffset>
<bitWidth>11</bitWidth>
<access>read-only</access>
</field>
<field>
<name>ANV</name>
<description>Address Not Valid</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RADDR is valid.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RADDR is not valid.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STAR</name>
<description>Slave Transmit ACK Register</description>
<addressOffset>0x154</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TXNACK</name>
<description>Transmit NACK</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit ACK for received word.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit NACK for received word.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STDR</name>
<description>Slave Transmit Data Register</description>
<addressOffset>0x160</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA</name>
<description>Transmit Data</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>write-only</access>
</field>
</fields>
</register>
<register>
<name>SRDR</name>
<description>Slave Receive Data Register</description>
<addressOffset>0x170</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x4000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DATA</name>
<description>Receive Data</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RXEMPTY</name>
<description>RX Empty</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The Receive Data Register is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The Receive Data Register is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SOF</name>
<description>Start Of Frame</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Indicates this is not the first data word since a (repeated) START or STOP condition.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Indicates this is the first data word since a (repeated) START or STOP condition.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>UART0</name>
<description>Serial Communication Interface</description>
<groupName>UART</groupName>
<prependToName>UART0_</prependToName>
<baseAddress>0x4006A000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x40</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>UART0_RX_TX</name>
<value>31</value>
</interrupt>
<interrupt>
<name>UART0_ERR</name>
<value>32</value>
</interrupt>
<registers>
<register>
<name>BDH</name>
<description>UART Baud Rate Registers: High</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBR</name>
<description>UART Baud Rate Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SBNS</name>
<description>Stop Bit Number Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data frame consists of a single stop bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data frame consists of two stop bits.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEDGIE</name>
<description>RxD Input Active Edge Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from RXEDGIF disabled using polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXEDGIF interrupt request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDIE</name>
<description>LIN Break Detect Interrupt or DMA Request Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LBKDIF interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LBKDIF interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>BDL</name>
<description>UART Baud Rate Registers: Low</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x4</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBR</name>
<description>UART Baud Rate Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>C1</name>
<description>UART Control Register 1</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PT</name>
<description>Parity Type</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even parity.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd parity.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Parity Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Parity function disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Parity function enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ILT</name>
<description>Idle Line Type Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Idle character bit count starts after start bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Idle character bit count starts after stop bit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAKE</name>
<description>Receiver Wakeup Method Select</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Idle line wakeup.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Address mark wakeup.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M</name>
<description>9-bit or 8-bit Mode Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal-start + 8 data bits (MSB/LSB first as determined by MSBF) + stop.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Use-start + 9 data bits (MSB/LSB first as determined by MSBF) + stop.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSRC</name>
<description>Receiver Source Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Selects internal loop back mode. The receiver input is internally connected to transmitter output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Single wire UART mode where the receiver input is connected to the transmit pin input signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UARTSWAI</name>
<description>UART Stops in Wait Mode</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>UART clock continues to run in Wait mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>UART clock freezes while CPU is in Wait mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOOPS</name>
<description>Loop Mode Select</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Loop mode where transmitter output is internally connected to receiver input. The receiver input is determined by RSRC.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C2</name>
<description>UART Control Register 2</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBK</name>
<description>Send Break</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal transmitter operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Queue break characters to be sent.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWU</name>
<description>Receiver Wakeup Control</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RWU enables the wakeup function and inhibits further receiver interrupt requests. Normally, hardware wakes the receiver by automatically clearing RWU.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RE</name>
<description>Receiver Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver off.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver on.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TE</name>
<description>Transmitter Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter off.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter on.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ILIE</name>
<description>Idle Line Interrupt Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IDLE interrupt requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>IDLE interrupt requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RIE</name>
<description>Receiver Full Interrupt or DMA Transfer Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RDRF interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RDRF interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCIE</name>
<description>Transmission Complete Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TC interrupt requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TC interrupt requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIE</name>
<description>Transmitter Interrupt or DMA Transfer Enable.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TDRE interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TDRE interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>S1</name>
<description>UART Status Register 1</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xC0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PF</name>
<description>Parity Error Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No parity error detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1, then there may be data in the receive buffer what was received with a parity error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one dataword was received with a parity error since the last time this flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FE</name>
<description>Framing Error Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No framing error detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Framing error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NF</name>
<description>Noise Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No noise detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1 then there may be data in the receiver buffer that was received with noise.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one dataword was received with noise detected since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OR</name>
<description>Receiver Overrun Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No overrun has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Overrun has occurred or the overrun flag has not been cleared since the last overrun occured.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IDLE</name>
<description>Idle Line Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver input is either active now or has never become active since the IDLE flag was last cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver input has become idle or the flag has not been cleared since it last asserted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDRF</name>
<description>Receive Data Register Full Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The number of datawords in the receive buffer is less than the number indicated by RXWATER.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The number of datawords in the receive buffer is equal to or greater than the number indicated by RXWATER at some point in time since this flag was last cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TC</name>
<description>Transmit Complete Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter active (sending data, a preamble, or a break).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter idle (transmission activity complete).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TDRE</name>
<description>Transmit Data Register Empty Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The amount of data in the transmit buffer is greater than the value indicated by TWFIFO[TXWATER].</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The amount of data in the transmit buffer is less than or equal to the value indicated by TWFIFO[TXWATER] at some point in time since the flag has been cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>S2</name>
<description>UART Status Register 2</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RAF</name>
<description>Receiver Active Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>UART receiver idle/inactive waiting for a start bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>UART receiver active, RxD input not idle.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDE</name>
<description>LIN Break Detection Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Break character detection is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Break character is detected at length of 11 bit times if C1[M] = 0 or 12 bits time if C1[M] = 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BRK13</name>
<description>Break Transmit Character Length</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Break character is 10, 11, or 12 bits long.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Break character is 13 or 14 bits long.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWUID</name>
<description>Receive Wakeup Idle Detect</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>S1[IDLE] is not set upon detection of an idle character.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>S1[IDLE] is set upon detection of an idle character.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXINV</name>
<description>Receive Data Inversion</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive data is not inverted.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data is inverted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSBF</name>
<description>Most Significant Bit First</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LSB (bit0) is the first bit that is transmitted following the start bit. Further, the first bit received after the start bit is identified as bit0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MSB (bit8, bit7 or bit6) is the first bit that is transmitted following the start bit, depending on the setting of C1[M] and C1[PE]. Further, the first bit received after the start bit is identified as bit8, bit7, or bit6, depending on the setting of C1[M] and C1[PE].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEDGIF</name>
<description>RxD Pin Active Edge Interrupt Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No active edge on the receive pin has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An active edge on the receive pin has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDIF</name>
<description>LIN Break Detect Interrupt Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No LIN break character detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LIN break character detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C3</name>
<description>UART Control Register 3</description>
<addressOffset>0x6</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PEIE</name>
<description>Parity Error Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>Framing Error Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FE interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FE interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NEIE</name>
<description>Noise Error Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>NF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>NF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ORIE</name>
<description>Overrun Error Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>OR interrupts are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>OR interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXINV</name>
<description>Transmit Data Inversion.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data is not inverted.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data is inverted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXDIR</name>
<description>Transmitter Pin Data Direction in Single-Wire mode</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TXD pin is an input in single wire mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXD pin is an output in single wire mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>T8</name>
<description>Transmit Bit 8</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R8</name>
<description>Received Bit 8</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>D</name>
<description>UART Data Register</description>
<addressOffset>0x7</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RT</name>
<description>Reads return the contents of the read-only receive data register and writes go to the write-only transmit data register</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MA1</name>
<description>UART Match Address Registers 1</description>
<addressOffset>0x8</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MA</name>
<description>Match Address</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MA2</name>
<description>UART Match Address Registers 2</description>
<addressOffset>0x9</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MA</name>
<description>Match Address</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>C4</name>
<description>UART Control Register 4</description>
<addressOffset>0xA</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BRFA</name>
<description>Baud Rate Fine Adjust</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>M10</name>
<description>10-bit Mode select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The parity bit is the ninth bit in the serial transmission.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The parity bit is the tenth bit in the serial transmission.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAEN2</name>
<description>Match Address Mode Enable 2</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All data received is transferred to the data buffer if MAEN1 is cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA2 register. If no match occurs, the data is discarded. If a match occurs, data is transferred to the data buffer. This field must be cleared when C7816[ISO7816E] is set/enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAEN1</name>
<description>Match Address Mode Enable 1</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All data received is transferred to the data buffer if MAEN2 is cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA1 register. If no match occurs, the data is discarded. If match occurs, data is transferred to the data buffer. This field must be cleared when C7816[ISO7816E] is set/enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C5</name>
<description>UART Control Register 5</description>
<addressOffset>0xB</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LBKDDMAS</name>
<description>LIN Break Detect DMA Select Bit</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If BDH[LBKDIE] and S2[LBKDIF] are set, the LBKDIF interrupt signal is asserted to request an interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If BDH[LBKDIE] and S2[LBKDIF] are set, the LBKDIF DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDMAS</name>
<description>Receiver Full DMA Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If C2[RIE] and S1[RDRF] are set, the RDFR interrupt request signal is asserted to request an interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If C2[RIE] and S1[RDRF] are set, the RDRF DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TDMAS</name>
<description>Transmitter DMA Select</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE interrupt request signal is asserted to request interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ED</name>
<description>UART Extended Data Register</description>
<addressOffset>0xC</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PARITYE</name>
<description>The current received dataword contained in D and C3[R8] was received with a parity error.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without a parity error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The dataword was received with a parity error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOISY</name>
<description>The current received dataword contained in D and C3[R8] was received with noise.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without noise.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The data was received with noise.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MODEM</name>
<description>UART Modem Register</description>
<addressOffset>0xD</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXCTSE</name>
<description>Transmitter clear-to-send enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>CTS has no effect on the transmitter.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables clear-to-send operation. The transmitter checks the state of CTS each time it is ready to send a character. If CTS is asserted, the character is sent. If CTS is deasserted, the signal TXD remains in the mark state and transmission is delayed until CTS is asserted. Changes in CTS as a character is being sent do not affect its transmission.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRTSE</name>
<description>Transmitter request-to-send enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The transmitter has no effect on RTS.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>When a character is placed into an empty transmitter data buffer , RTS asserts one bit time before the start bit is transmitted. RTS deasserts one bit time after all characters in the transmitter data buffer and shift register are completely sent, including the last stop bit. (FIFO) Ensure that C2[TE] is asserted before assertion of this bit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRTSPOL</name>
<description>Transmitter request-to-send polarity</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter RTS is active low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter RTS is active high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXRTSE</name>
<description>Receiver request-to-send enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The receiver has no effect on RTS.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RTS is deasserted if the number of characters in the receiver data register (FIFO) is equal to or greater than RWFIFO[RXWATER]. RTS is asserted when the number of characters in the receiver data register (FIFO) is less than RWFIFO[RXWATER]. See Hardware flow control</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IR</name>
<description>UART Infrared Register</description>
<addressOffset>0xE</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TNP</name>
<description>Transmitter narrow pulse</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>3/16.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>1/16.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>1/32.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>1/4.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IREN</name>
<description>Infrared enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IR disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>IR enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PFIFO</name>
<description>UART FIFO Parameters</description>
<addressOffset>0x10</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXFIFOSIZE</name>
<description>Receive FIFO. Buffer Depth</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Receive FIFO/Buffer depth = 1 dataword.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Receive FIFO/Buffer depth = 4 datawords.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Receive FIFO/Buffer depth = 8 datawords.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Receive FIFO/Buffer depth = 16 datawords.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Receive FIFO/Buffer depth = 32 datawords.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Receive FIFO/Buffer depth = 64 datawords.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Receive FIFO/Buffer depth = 128 datawords.</description>
<value>#110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXFE</name>
<description>Receive FIFO Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive FIFO is not enabled. Buffer is depth 1. (Legacy support)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO is enabled. Buffer is depth indicted by RXFIFOSIZE.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFIFOSIZE</name>
<description>Transmit FIFO. Buffer Depth</description>
<bitOffset>4</bitOffset>
<bitWidth>3</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Transmit FIFO/Buffer depth = 1 dataword.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Transmit FIFO/Buffer depth = 4 datawords.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Transmit FIFO/Buffer depth = 8 datawords.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Transmit FIFO/Buffer depth = 16 datawords.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Transmit FIFO/Buffer depth = 32 datawords.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Transmit FIFO/Buffer depth = 64 datawords.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Transmit FIFO/Buffer depth = 128 datawords.</description>
<value>#110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFE</name>
<description>Transmit FIFO Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit FIFO is not enabled. Buffer is depth 1. (Legacy support).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit FIFO is enabled. Buffer is depth indicated by TXFIFOSIZE.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CFIFO</name>
<description>UART FIFO Control Register</description>
<addressOffset>0x11</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXUFE</name>
<description>Receive FIFO Underflow Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RXUF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXUF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXOFE</name>
<description>Transmit FIFO Overflow Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TXOF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXOF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXOFE</name>
<description>Receive FIFO Overflow Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RXOF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXOF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXFLUSH</name>
<description>Receive FIFO/Buffer Flush</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No flush operation occurs.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data in the receive FIFO/buffer is cleared out.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFLUSH</name>
<description>Transmit FIFO/Buffer Flush</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No flush operation occurs.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data in the transmit FIFO/Buffer is cleared out.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SFIFO</name>
<description>UART FIFO Status Register</description>
<addressOffset>0x12</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xC0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXUF</name>
<description>Receiver Buffer Underflow Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No receive buffer underflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one receive buffer underflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXOF</name>
<description>Transmitter Buffer Overflow Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No transmit buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one transmit buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXOF</name>
<description>Receiver Buffer Overflow Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No receive buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one receive buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEMPT</name>
<description>Receive Buffer/FIFO Empty</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive buffer is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive buffer is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXEMPT</name>
<description>Transmit Buffer/FIFO Empty</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit buffer is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit buffer is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TWFIFO</name>
<description>UART FIFO Transmit Watermark</description>
<addressOffset>0x13</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXWATER</name>
<description>Transmit Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TCFIFO</name>
<description>UART FIFO Transmit Count</description>
<addressOffset>0x14</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXCOUNT</name>
<description>Transmit Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RWFIFO</name>
<description>UART FIFO Receive Watermark</description>
<addressOffset>0x15</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXWATER</name>
<description>Receive Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RCFIFO</name>
<description>UART FIFO Receive Count</description>
<addressOffset>0x16</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXCOUNT</name>
<description>Receive Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>C7816</name>
<description>UART 7816 Control Register</description>
<addressOffset>0x18</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ISO_7816E</name>
<description>ISO-7816 Functionality Enabled</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>ISO-7816 functionality is turned off/not enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>ISO-7816 functionality is turned on/enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TTYPE</name>
<description>Transfer Type</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>T = 0 per the ISO-7816 specification.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>T = 1 per the ISO-7816 specification.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INIT</name>
<description>Detect Initial Character</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operating mode. Receiver does not seek to identify initial character.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver searches for initial character.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ANACK</name>
<description>Generate NACK on Error</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No NACK is automatically generated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A NACK is automatically generated if a parity error is detected or if an invalid initial character is detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ONACK</name>
<description>Generate NACK on Overflow</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The received data does not generate a NACK when the receipt of the data results in an overflow event.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If the receiver buffer overflows, a NACK is automatically sent on a received character.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IE7816</name>
<description>UART 7816 Interrupt Enable Register</description>
<addressOffset>0x19</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXTE</name>
<description>Receive Threshold Exceeded Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The assertion of IS7816[RXT] does not result in the generation of an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of IS7816[RXT] results in the generation of an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXTE</name>
<description>Transmit Threshold Exceeded Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The assertion of IS7816[TXT] does not result in the generation of an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of IS7816[TXT] results in the generation of an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GTVE</name>
<description>Guard Timer Violated Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The assertion of IS7816[GTV] does not result in the generation of an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of IS7816[GTV] results in the generation of an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADTE</name>
<description>ATR Duration Timer Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The assertion of IS7816[ADT] does not result in the generation of an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of IS7816[ADT] results in the generation of an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INITDE</name>
<description>Initial Character Detected Interrupt Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The assertion of IS7816[INITD] does not result in the generation of an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of IS7816[INITD] results in the generation of an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BWTE</name>
<description>Block Wait Timer Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The assertion of IS7816[BWT] does not result in the generation of an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of IS7816[BWT] results in the generation of an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CWTE</name>
<description>Character Wait Timer Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The assertion of IS7816[CWT] does not result in the generation of an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of IS7816[CWT] results in the generation of an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WTE</name>
<description>Wait Timer Interrupt Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The assertion of IS7816[WT] does not result in the generation of an interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The assertion of IS7816[WT] results in the generation of an interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IS7816</name>
<description>UART 7816 Interrupt Status Register</description>
<addressOffset>0x1A</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXT</name>
<description>Receive Threshold Exceeded Interrupt</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The number of consecutive NACKS generated as a result of parity errors and buffer overruns is less than or equal to the value in ET7816[RXTHRESHOLD].</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The number of consecutive NACKS generated as a result of parity errors and buffer overruns is greater than the value in ET7816[RXTHRESHOLD].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXT</name>
<description>Transmit Threshold Exceeded Interrupt</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The number of retries and corresponding NACKS does not exceed the value in ET7816[TXTHRESHOLD].</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The number of retries and corresponding NACKS exceeds the value in ET7816[TXTHRESHOLD].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>GTV</name>
<description>Guard Timer Violated Interrupt</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A guard time (GT, CGT, or BGT) has not been violated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A guard time (GT, CGT, or BGT) has been violated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ADT</name>
<description>ATR Duration Time Interrupt</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>ATR Duration time (ADT) has not been violated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>ATR Duration time (ADT) has been violated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INITD</name>
<description>Initial Character Detected Interrupt</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A valid initial character has not been received.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A valid initial character has been received.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BWT</name>
<description>Block Wait Timer Interrupt</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Block wait time (BWT) has not been violated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Block wait time (BWT) has been violated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CWT</name>
<description>Character Wait Timer Interrupt</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Character wait time (CWT) has not been violated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Character wait time (CWT) has been violated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WT</name>
<description>Wait Timer Interrupt</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Wait time (WT) has not been violated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Wait time (WT) has been violated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>WP7816</name>
<description>UART 7816 Wait Parameter Register</description>
<addressOffset>0x1B</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WTX</name>
<description>Wait Time Multiplier (C7816[TTYPE] = 1)</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WN7816</name>
<description>UART 7816 Wait N Register</description>
<addressOffset>0x1C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>GTN</name>
<description>Guard Band N</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WF7816</name>
<description>UART 7816 Wait FD Register</description>
<addressOffset>0x1D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>GTFD</name>
<description>FD Multiplier</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ET7816</name>
<description>UART 7816 Error Threshold Register</description>
<addressOffset>0x1E</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXTHRESHOLD</name>
<description>Receive NACK Threshold</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TXTHRESHOLD</name>
<description>Transmit NACK Threshold</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TXT asserts on the first NACK that is received.</description>
<value>#0000</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXT asserts on the second NACK that is received.</description>
<value>#0001</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TL7816</name>
<description>UART 7816 Transmit Length Register</description>
<addressOffset>0x1F</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TLEN</name>
<description>Transmit Length</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>AP7816A_T0</name>
<description>UART 7816 ATR Duration Timer Register A</description>
<addressOffset>0x3A</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ADTI_H</name>
<description>ATR Duration Time Integer High (C7816[TTYPE] = 0)</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>AP7816B_T0</name>
<description>UART 7816 ATR Duration Timer Register B</description>
<addressOffset>0x3B</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ADTI_L</name>
<description>ATR Duration Time Integer Low (C7816[TTYPE] = 0)</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WP7816A_T0</name>
<description>UART 7816 Wait Parameter Register A</description>
<alternateGroup>UART0</alternateGroup>
<addressOffset>0x3C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WI_H</name>
<description>Wait Time Integer High (C7816[TTYPE] = 0)</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WP7816A_T1</name>
<description>UART 7816 Wait Parameter Register A</description>
<alternateGroup>UART0</alternateGroup>
<addressOffset>0x3C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BWI_H</name>
<description>Block Wait Time Integer High (C7816[TTYPE] = 1)</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WP7816B_T0</name>
<description>UART 7816 Wait Parameter Register B</description>
<alternateGroup>UART0</alternateGroup>
<addressOffset>0x3D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x14</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WI_L</name>
<description>Wait Time Integer Low (C7816[TTYPE] = 0)</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WP7816B_T1</name>
<description>UART 7816 Wait Parameter Register B</description>
<alternateGroup>UART0</alternateGroup>
<addressOffset>0x3D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x14</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BWI_L</name>
<description>Block Wait Time Integer Low (C7816[TTYPE] = 1)</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WGP7816_T1</name>
<description>UART 7816 Wait and Guard Parameter Register</description>
<addressOffset>0x3E</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x6</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BGI</name>
<description>Block Guard Time Integer (C7816[TTYPE] = 1)</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CWI1</name>
<description>Character Wait Time Integer 1 (C7816[TTYPE] = 1)</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>WP7816C_T1</name>
<description>UART 7816 Wait Parameter Register C</description>
<addressOffset>0x3F</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xB</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CWI2</name>
<description>Character Wait Time Integer 2 (C7816[TTYPE] = 1)</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>UART1</name>
<description>Serial Communication Interface</description>
<groupName>UART</groupName>
<prependToName>UART1_</prependToName>
<baseAddress>0x4006B000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x17</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>UART1_RX_TX</name>
<value>33</value>
</interrupt>
<interrupt>
<name>UART1_ERR</name>
<value>34</value>
</interrupt>
<registers>
<register>
<name>BDH</name>
<description>UART Baud Rate Registers: High</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBR</name>
<description>UART Baud Rate Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SBNS</name>
<description>Stop Bit Number Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data frame consists of a single stop bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data frame consists of two stop bits.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEDGIE</name>
<description>RxD Input Active Edge Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from RXEDGIF disabled using polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXEDGIF interrupt request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDIE</name>
<description>LIN Break Detect Interrupt or DMA Request Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LBKDIF interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LBKDIF interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>BDL</name>
<description>UART Baud Rate Registers: Low</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x4</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBR</name>
<description>UART Baud Rate Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>C1</name>
<description>UART Control Register 1</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PT</name>
<description>Parity Type</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even parity.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd parity.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Parity Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Parity function disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Parity function enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ILT</name>
<description>Idle Line Type Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Idle character bit count starts after start bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Idle character bit count starts after stop bit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAKE</name>
<description>Receiver Wakeup Method Select</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Idle line wakeup.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Address mark wakeup.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M</name>
<description>9-bit or 8-bit Mode Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal-start + 8 data bits (MSB/LSB first as determined by MSBF) + stop.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Use-start + 9 data bits (MSB/LSB first as determined by MSBF) + stop.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSRC</name>
<description>Receiver Source Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Selects internal loop back mode. The receiver input is internally connected to transmitter output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Single wire UART mode where the receiver input is connected to the transmit pin input signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UARTSWAI</name>
<description>UART Stops in Wait Mode</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>UART clock continues to run in Wait mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>UART clock freezes while CPU is in Wait mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOOPS</name>
<description>Loop Mode Select</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Loop mode where transmitter output is internally connected to receiver input. The receiver input is determined by RSRC.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C2</name>
<description>UART Control Register 2</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBK</name>
<description>Send Break</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal transmitter operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Queue break characters to be sent.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWU</name>
<description>Receiver Wakeup Control</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RWU enables the wakeup function and inhibits further receiver interrupt requests. Normally, hardware wakes the receiver by automatically clearing RWU.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RE</name>
<description>Receiver Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver off.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver on.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TE</name>
<description>Transmitter Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter off.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter on.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ILIE</name>
<description>Idle Line Interrupt Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IDLE interrupt requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>IDLE interrupt requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RIE</name>
<description>Receiver Full Interrupt or DMA Transfer Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RDRF interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RDRF interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCIE</name>
<description>Transmission Complete Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TC interrupt requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TC interrupt requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIE</name>
<description>Transmitter Interrupt or DMA Transfer Enable.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TDRE interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TDRE interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>S1</name>
<description>UART Status Register 1</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xC0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PF</name>
<description>Parity Error Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No parity error detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1, then there may be data in the receive buffer what was received with a parity error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one dataword was received with a parity error since the last time this flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FE</name>
<description>Framing Error Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No framing error detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Framing error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NF</name>
<description>Noise Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No noise detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1 then there may be data in the receiver buffer that was received with noise.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one dataword was received with noise detected since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OR</name>
<description>Receiver Overrun Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No overrun has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Overrun has occurred or the overrun flag has not been cleared since the last overrun occured.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IDLE</name>
<description>Idle Line Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver input is either active now or has never become active since the IDLE flag was last cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver input has become idle or the flag has not been cleared since it last asserted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDRF</name>
<description>Receive Data Register Full Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The number of datawords in the receive buffer is less than the number indicated by RXWATER.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The number of datawords in the receive buffer is equal to or greater than the number indicated by RXWATER at some point in time since this flag was last cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TC</name>
<description>Transmit Complete Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter active (sending data, a preamble, or a break).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter idle (transmission activity complete).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TDRE</name>
<description>Transmit Data Register Empty Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The amount of data in the transmit buffer is greater than the value indicated by TWFIFO[TXWATER].</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The amount of data in the transmit buffer is less than or equal to the value indicated by TWFIFO[TXWATER] at some point in time since the flag has been cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>S2</name>
<description>UART Status Register 2</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RAF</name>
<description>Receiver Active Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>UART receiver idle/inactive waiting for a start bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>UART receiver active, RxD input not idle.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDE</name>
<description>LIN Break Detection Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Break character detection is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Break character is detected at length of 11 bit times if C1[M] = 0 or 12 bits time if C1[M] = 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BRK13</name>
<description>Break Transmit Character Length</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Break character is 10, 11, or 12 bits long.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Break character is 13 or 14 bits long.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWUID</name>
<description>Receive Wakeup Idle Detect</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>S1[IDLE] is not set upon detection of an idle character.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>S1[IDLE] is set upon detection of an idle character.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXINV</name>
<description>Receive Data Inversion</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive data is not inverted.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data is inverted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSBF</name>
<description>Most Significant Bit First</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LSB (bit0) is the first bit that is transmitted following the start bit. Further, the first bit received after the start bit is identified as bit0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MSB (bit8, bit7 or bit6) is the first bit that is transmitted following the start bit, depending on the setting of C1[M] and C1[PE]. Further, the first bit received after the start bit is identified as bit8, bit7, or bit6, depending on the setting of C1[M] and C1[PE].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEDGIF</name>
<description>RxD Pin Active Edge Interrupt Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No active edge on the receive pin has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An active edge on the receive pin has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDIF</name>
<description>LIN Break Detect Interrupt Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No LIN break character detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LIN break character detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C3</name>
<description>UART Control Register 3</description>
<addressOffset>0x6</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PEIE</name>
<description>Parity Error Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>Framing Error Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FE interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FE interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NEIE</name>
<description>Noise Error Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>NF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>NF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ORIE</name>
<description>Overrun Error Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>OR interrupts are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>OR interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXINV</name>
<description>Transmit Data Inversion.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data is not inverted.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data is inverted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXDIR</name>
<description>Transmitter Pin Data Direction in Single-Wire mode</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TXD pin is an input in single wire mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXD pin is an output in single wire mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>T8</name>
<description>Transmit Bit 8</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R8</name>
<description>Received Bit 8</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>D</name>
<description>UART Data Register</description>
<addressOffset>0x7</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RT</name>
<description>Reads return the contents of the read-only receive data register and writes go to the write-only transmit data register</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MA1</name>
<description>UART Match Address Registers 1</description>
<addressOffset>0x8</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MA</name>
<description>Match Address</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MA2</name>
<description>UART Match Address Registers 2</description>
<addressOffset>0x9</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MA</name>
<description>Match Address</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>C4</name>
<description>UART Control Register 4</description>
<addressOffset>0xA</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BRFA</name>
<description>Baud Rate Fine Adjust</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>M10</name>
<description>10-bit Mode select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The parity bit is the ninth bit in the serial transmission.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The parity bit is the tenth bit in the serial transmission.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAEN2</name>
<description>Match Address Mode Enable 2</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All data received is transferred to the data buffer if MAEN1 is cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA2 register. If no match occurs, the data is discarded. If a match occurs, data is transferred to the data buffer. This field must be cleared when C7816[ISO7816E] is set/enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAEN1</name>
<description>Match Address Mode Enable 1</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All data received is transferred to the data buffer if MAEN2 is cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA1 register. If no match occurs, the data is discarded. If match occurs, data is transferred to the data buffer. This field must be cleared when C7816[ISO7816E] is set/enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C5</name>
<description>UART Control Register 5</description>
<addressOffset>0xB</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LBKDDMAS</name>
<description>LIN Break Detect DMA Select Bit</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If BDH[LBKDIE] and S2[LBKDIF] are set, the LBKDIF interrupt signal is asserted to request an interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If BDH[LBKDIE] and S2[LBKDIF] are set, the LBKDIF DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDMAS</name>
<description>Receiver Full DMA Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If C2[RIE] and S1[RDRF] are set, the RDFR interrupt request signal is asserted to request an interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If C2[RIE] and S1[RDRF] are set, the RDRF DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TDMAS</name>
<description>Transmitter DMA Select</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE interrupt request signal is asserted to request interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ED</name>
<description>UART Extended Data Register</description>
<addressOffset>0xC</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PARITYE</name>
<description>The current received dataword contained in D and C3[R8] was received with a parity error.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without a parity error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The dataword was received with a parity error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOISY</name>
<description>The current received dataword contained in D and C3[R8] was received with noise.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without noise.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The data was received with noise.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MODEM</name>
<description>UART Modem Register</description>
<addressOffset>0xD</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXCTSE</name>
<description>Transmitter clear-to-send enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>CTS has no effect on the transmitter.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables clear-to-send operation. The transmitter checks the state of CTS each time it is ready to send a character. If CTS is asserted, the character is sent. If CTS is deasserted, the signal TXD remains in the mark state and transmission is delayed until CTS is asserted. Changes in CTS as a character is being sent do not affect its transmission.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRTSE</name>
<description>Transmitter request-to-send enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The transmitter has no effect on RTS.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>When a character is placed into an empty transmitter data buffer , RTS asserts one bit time before the start bit is transmitted. RTS deasserts one bit time after all characters in the transmitter data buffer and shift register are completely sent, including the last stop bit. (FIFO) Ensure that C2[TE] is asserted before assertion of this bit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRTSPOL</name>
<description>Transmitter request-to-send polarity</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter RTS is active low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter RTS is active high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXRTSE</name>
<description>Receiver request-to-send enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The receiver has no effect on RTS.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RTS is deasserted if the number of characters in the receiver data register (FIFO) is equal to or greater than RWFIFO[RXWATER]. RTS is asserted when the number of characters in the receiver data register (FIFO) is less than RWFIFO[RXWATER]. See Hardware flow control</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IR</name>
<description>UART Infrared Register</description>
<addressOffset>0xE</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TNP</name>
<description>Transmitter narrow pulse</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>3/16.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>1/16.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>1/32.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>1/4.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IREN</name>
<description>Infrared enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IR disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>IR enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PFIFO</name>
<description>UART FIFO Parameters</description>
<addressOffset>0x10</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXFIFOSIZE</name>
<description>Receive FIFO. Buffer Depth</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Receive FIFO/Buffer depth = 1 dataword.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Receive FIFO/Buffer depth = 4 datawords.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Receive FIFO/Buffer depth = 8 datawords.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Receive FIFO/Buffer depth = 16 datawords.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Receive FIFO/Buffer depth = 32 datawords.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Receive FIFO/Buffer depth = 64 datawords.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Receive FIFO/Buffer depth = 128 datawords.</description>
<value>#110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXFE</name>
<description>Receive FIFO Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive FIFO is not enabled. Buffer is depth 1. (Legacy support)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO is enabled. Buffer is depth indicted by RXFIFOSIZE.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFIFOSIZE</name>
<description>Transmit FIFO. Buffer Depth</description>
<bitOffset>4</bitOffset>
<bitWidth>3</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Transmit FIFO/Buffer depth = 1 dataword.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Transmit FIFO/Buffer depth = 4 datawords.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Transmit FIFO/Buffer depth = 8 datawords.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Transmit FIFO/Buffer depth = 16 datawords.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Transmit FIFO/Buffer depth = 32 datawords.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Transmit FIFO/Buffer depth = 64 datawords.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Transmit FIFO/Buffer depth = 128 datawords.</description>
<value>#110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFE</name>
<description>Transmit FIFO Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit FIFO is not enabled. Buffer is depth 1. (Legacy support).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit FIFO is enabled. Buffer is depth indicated by TXFIFOSIZE.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CFIFO</name>
<description>UART FIFO Control Register</description>
<addressOffset>0x11</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXUFE</name>
<description>Receive FIFO Underflow Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RXUF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXUF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXOFE</name>
<description>Transmit FIFO Overflow Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TXOF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXOF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXOFE</name>
<description>Receive FIFO Overflow Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RXOF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXOF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXFLUSH</name>
<description>Receive FIFO/Buffer Flush</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No flush operation occurs.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data in the receive FIFO/buffer is cleared out.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFLUSH</name>
<description>Transmit FIFO/Buffer Flush</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No flush operation occurs.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data in the transmit FIFO/Buffer is cleared out.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SFIFO</name>
<description>UART FIFO Status Register</description>
<addressOffset>0x12</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xC0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXUF</name>
<description>Receiver Buffer Underflow Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No receive buffer underflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one receive buffer underflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXOF</name>
<description>Transmitter Buffer Overflow Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No transmit buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one transmit buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXOF</name>
<description>Receiver Buffer Overflow Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No receive buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one receive buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEMPT</name>
<description>Receive Buffer/FIFO Empty</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive buffer is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive buffer is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXEMPT</name>
<description>Transmit Buffer/FIFO Empty</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit buffer is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit buffer is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TWFIFO</name>
<description>UART FIFO Transmit Watermark</description>
<addressOffset>0x13</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXWATER</name>
<description>Transmit Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TCFIFO</name>
<description>UART FIFO Transmit Count</description>
<addressOffset>0x14</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXCOUNT</name>
<description>Transmit Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RWFIFO</name>
<description>UART FIFO Receive Watermark</description>
<addressOffset>0x15</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXWATER</name>
<description>Receive Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RCFIFO</name>
<description>UART FIFO Receive Count</description>
<addressOffset>0x16</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXCOUNT</name>
<description>Receive Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>UART2</name>
<description>Serial Communication Interface</description>
<groupName>UART</groupName>
<prependToName>UART2_</prependToName>
<baseAddress>0x4006C000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x17</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>UART2_RX_TX</name>
<value>35</value>
</interrupt>
<interrupt>
<name>UART2_ERR</name>
<value>36</value>
</interrupt>
<registers>
<register>
<name>BDH</name>
<description>UART Baud Rate Registers: High</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBR</name>
<description>UART Baud Rate Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SBNS</name>
<description>Stop Bit Number Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Data frame consists of a single stop bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Data frame consists of two stop bits.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEDGIE</name>
<description>RxD Input Active Edge Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupts from RXEDGIF disabled using polling.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXEDGIF interrupt request enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDIE</name>
<description>LIN Break Detect Interrupt or DMA Request Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LBKDIF interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LBKDIF interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>BDL</name>
<description>UART Baud Rate Registers: Low</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x4</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBR</name>
<description>UART Baud Rate Bits</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>C1</name>
<description>UART Control Register 1</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PT</name>
<description>Parity Type</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Even parity.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Odd parity.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PE</name>
<description>Parity Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Parity function disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Parity function enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ILT</name>
<description>Idle Line Type Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Idle character bit count starts after start bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Idle character bit count starts after stop bit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WAKE</name>
<description>Receiver Wakeup Method Select</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Idle line wakeup.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Address mark wakeup.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>M</name>
<description>9-bit or 8-bit Mode Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal-start + 8 data bits (MSB/LSB first as determined by MSBF) + stop.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Use-start + 9 data bits (MSB/LSB first as determined by MSBF) + stop.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSRC</name>
<description>Receiver Source Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Selects internal loop back mode. The receiver input is internally connected to transmitter output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Single wire UART mode where the receiver input is connected to the transmit pin input signal.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UARTSWAI</name>
<description>UART Stops in Wait Mode</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>UART clock continues to run in Wait mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>UART clock freezes while CPU is in Wait mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOOPS</name>
<description>Loop Mode Select</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Loop mode where transmitter output is internally connected to receiver input. The receiver input is determined by RSRC.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C2</name>
<description>UART Control Register 2</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SBK</name>
<description>Send Break</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal transmitter operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Queue break characters to be sent.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWU</name>
<description>Receiver Wakeup Control</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RWU enables the wakeup function and inhibits further receiver interrupt requests. Normally, hardware wakes the receiver by automatically clearing RWU.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RE</name>
<description>Receiver Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver off.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver on.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TE</name>
<description>Transmitter Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter off.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter on.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ILIE</name>
<description>Idle Line Interrupt Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IDLE interrupt requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>IDLE interrupt requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RIE</name>
<description>Receiver Full Interrupt or DMA Transfer Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RDRF interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RDRF interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TCIE</name>
<description>Transmission Complete Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TC interrupt requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TC interrupt requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TIE</name>
<description>Transmitter Interrupt or DMA Transfer Enable.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TDRE interrupt and DMA transfer requests disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TDRE interrupt or DMA transfer requests enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>S1</name>
<description>UART Status Register 1</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xC0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PF</name>
<description>Parity Error Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No parity error detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1, then there may be data in the receive buffer what was received with a parity error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one dataword was received with a parity error since the last time this flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FE</name>
<description>Framing Error Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No framing error detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Framing error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NF</name>
<description>Noise Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No noise detected since the last time this flag was cleared. If the receive buffer has a depth greater than 1 then there may be data in the receiver buffer that was received with noise.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one dataword was received with noise detected since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OR</name>
<description>Receiver Overrun Flag</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No overrun has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Overrun has occurred or the overrun flag has not been cleared since the last overrun occured.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IDLE</name>
<description>Idle Line Flag</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receiver input is either active now or has never become active since the IDLE flag was last cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receiver input has become idle or the flag has not been cleared since it last asserted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDRF</name>
<description>Receive Data Register Full Flag</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The number of datawords in the receive buffer is less than the number indicated by RXWATER.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The number of datawords in the receive buffer is equal to or greater than the number indicated by RXWATER at some point in time since this flag was last cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TC</name>
<description>Transmit Complete Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter active (sending data, a preamble, or a break).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter idle (transmission activity complete).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TDRE</name>
<description>Transmit Data Register Empty Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The amount of data in the transmit buffer is greater than the value indicated by TWFIFO[TXWATER].</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The amount of data in the transmit buffer is less than or equal to the value indicated by TWFIFO[TXWATER] at some point in time since the flag has been cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>S2</name>
<description>UART Status Register 2</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RAF</name>
<description>Receiver Active Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>UART receiver idle/inactive waiting for a start bit.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>UART receiver active, RxD input not idle.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDE</name>
<description>LIN Break Detection Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Break character detection is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Break character is detected at length of 11 bit times if C1[M] = 0 or 12 bits time if C1[M] = 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BRK13</name>
<description>Break Transmit Character Length</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Break character is 10, 11, or 12 bits long.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Break character is 13 or 14 bits long.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RWUID</name>
<description>Receive Wakeup Idle Detect</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>S1[IDLE] is not set upon detection of an idle character.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>S1[IDLE] is set upon detection of an idle character.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXINV</name>
<description>Receive Data Inversion</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive data is not inverted.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive data is inverted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSBF</name>
<description>Most Significant Bit First</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LSB (bit0) is the first bit that is transmitted following the start bit. Further, the first bit received after the start bit is identified as bit0.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MSB (bit8, bit7 or bit6) is the first bit that is transmitted following the start bit, depending on the setting of C1[M] and C1[PE]. Further, the first bit received after the start bit is identified as bit8, bit7, or bit6, depending on the setting of C1[M] and C1[PE].</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEDGIF</name>
<description>RxD Pin Active Edge Interrupt Flag</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No active edge on the receive pin has occurred.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>An active edge on the receive pin has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LBKDIF</name>
<description>LIN Break Detect Interrupt Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No LIN break character detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LIN break character detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C3</name>
<description>UART Control Register 3</description>
<addressOffset>0x6</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PEIE</name>
<description>Parity Error Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>PF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>PF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FEIE</name>
<description>Framing Error Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>FE interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>FE interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NEIE</name>
<description>Noise Error Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>NF interrupt requests are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>NF interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ORIE</name>
<description>Overrun Error Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>OR interrupts are disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>OR interrupt requests are enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXINV</name>
<description>Transmit Data Inversion.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit data is not inverted.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit data is inverted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXDIR</name>
<description>Transmitter Pin Data Direction in Single-Wire mode</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TXD pin is an input in single wire mode.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXD pin is an output in single wire mode.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>T8</name>
<description>Transmit Bit 8</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>R8</name>
<description>Received Bit 8</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>D</name>
<description>UART Data Register</description>
<addressOffset>0x7</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RT</name>
<description>Reads return the contents of the read-only receive data register and writes go to the write-only transmit data register</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MA1</name>
<description>UART Match Address Registers 1</description>
<addressOffset>0x8</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MA</name>
<description>Match Address</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MA2</name>
<description>UART Match Address Registers 2</description>
<addressOffset>0x9</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MA</name>
<description>Match Address</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>C4</name>
<description>UART Control Register 4</description>
<addressOffset>0xA</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BRFA</name>
<description>Baud Rate Fine Adjust</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
</field>
<field>
<name>M10</name>
<description>10-bit Mode select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The parity bit is the ninth bit in the serial transmission.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The parity bit is the tenth bit in the serial transmission.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAEN2</name>
<description>Match Address Mode Enable 2</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All data received is transferred to the data buffer if MAEN1 is cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA2 register. If no match occurs, the data is discarded. If a match occurs, data is transferred to the data buffer. This field must be cleared when C7816[ISO7816E] is set/enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MAEN1</name>
<description>Match Address Mode Enable 1</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All data received is transferred to the data buffer if MAEN2 is cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data received with the most significant bit cleared, is discarded. All data received with the most significant bit set, is compared with contents of MA1 register. If no match occurs, the data is discarded. If match occurs, data is transferred to the data buffer. This field must be cleared when C7816[ISO7816E] is set/enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>C5</name>
<description>UART Control Register 5</description>
<addressOffset>0xB</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LBKDDMAS</name>
<description>LIN Break Detect DMA Select Bit</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If BDH[LBKDIE] and S2[LBKDIF] are set, the LBKDIF interrupt signal is asserted to request an interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If BDH[LBKDIE] and S2[LBKDIF] are set, the LBKDIF DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RDMAS</name>
<description>Receiver Full DMA Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If C2[RIE] and S1[RDRF] are set, the RDFR interrupt request signal is asserted to request an interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If C2[RIE] and S1[RDRF] are set, the RDRF DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TDMAS</name>
<description>Transmitter DMA Select</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE interrupt request signal is asserted to request interrupt service.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If C2[TIE] is set and the S1[TDRE] flag is set, the TDRE DMA request signal is asserted to request a DMA transfer.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ED</name>
<description>UART Extended Data Register</description>
<addressOffset>0xC</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PARITYE</name>
<description>The current received dataword contained in D and C3[R8] was received with a parity error.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without a parity error.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The dataword was received with a parity error.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOISY</name>
<description>The current received dataword contained in D and C3[R8] was received with noise.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The dataword was received without noise.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The data was received with noise.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MODEM</name>
<description>UART Modem Register</description>
<addressOffset>0xD</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXCTSE</name>
<description>Transmitter clear-to-send enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>CTS has no effect on the transmitter.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables clear-to-send operation. The transmitter checks the state of CTS each time it is ready to send a character. If CTS is asserted, the character is sent. If CTS is deasserted, the signal TXD remains in the mark state and transmission is delayed until CTS is asserted. Changes in CTS as a character is being sent do not affect its transmission.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRTSE</name>
<description>Transmitter request-to-send enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The transmitter has no effect on RTS.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>When a character is placed into an empty transmitter data buffer , RTS asserts one bit time before the start bit is transmitted. RTS deasserts one bit time after all characters in the transmitter data buffer and shift register are completely sent, including the last stop bit. (FIFO) Ensure that C2[TE] is asserted before assertion of this bit.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXRTSPOL</name>
<description>Transmitter request-to-send polarity</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmitter RTS is active low.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmitter RTS is active high.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXRTSE</name>
<description>Receiver request-to-send enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The receiver has no effect on RTS.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RTS is deasserted if the number of characters in the receiver data register (FIFO) is equal to or greater than RWFIFO[RXWATER]. RTS is asserted when the number of characters in the receiver data register (FIFO) is less than RWFIFO[RXWATER]. See Hardware flow control</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>IR</name>
<description>UART Infrared Register</description>
<addressOffset>0xE</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TNP</name>
<description>Transmitter narrow pulse</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>3/16.</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>1/16.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>1/32.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>1/4.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IREN</name>
<description>Infrared enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IR disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>IR enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PFIFO</name>
<description>UART FIFO Parameters</description>
<addressOffset>0x10</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXFIFOSIZE</name>
<description>Receive FIFO. Buffer Depth</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Receive FIFO/Buffer depth = 1 dataword.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Receive FIFO/Buffer depth = 4 datawords.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Receive FIFO/Buffer depth = 8 datawords.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Receive FIFO/Buffer depth = 16 datawords.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Receive FIFO/Buffer depth = 32 datawords.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Receive FIFO/Buffer depth = 64 datawords.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Receive FIFO/Buffer depth = 128 datawords.</description>
<value>#110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXFE</name>
<description>Receive FIFO Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive FIFO is not enabled. Buffer is depth 1. (Legacy support)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive FIFO is enabled. Buffer is depth indicted by RXFIFOSIZE.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFIFOSIZE</name>
<description>Transmit FIFO. Buffer Depth</description>
<bitOffset>4</bitOffset>
<bitWidth>3</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Transmit FIFO/Buffer depth = 1 dataword.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>Transmit FIFO/Buffer depth = 4 datawords.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Transmit FIFO/Buffer depth = 8 datawords.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Transmit FIFO/Buffer depth = 16 datawords.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Transmit FIFO/Buffer depth = 32 datawords.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>Transmit FIFO/Buffer depth = 64 datawords.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Transmit FIFO/Buffer depth = 128 datawords.</description>
<value>#110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFE</name>
<description>Transmit FIFO Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit FIFO is not enabled. Buffer is depth 1. (Legacy support).</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit FIFO is enabled. Buffer is depth indicated by TXFIFOSIZE.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CFIFO</name>
<description>UART FIFO Control Register</description>
<addressOffset>0x11</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXUFE</name>
<description>Receive FIFO Underflow Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RXUF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXUF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXOFE</name>
<description>Transmit FIFO Overflow Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>TXOF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>TXOF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXOFE</name>
<description>Receive FIFO Overflow Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>RXOF flag does not generate an interrupt to the host.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>RXOF flag generates an interrupt to the host.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXFLUSH</name>
<description>Receive FIFO/Buffer Flush</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No flush operation occurs.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data in the receive FIFO/buffer is cleared out.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXFLUSH</name>
<description>Transmit FIFO/Buffer Flush</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No flush operation occurs.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>All data in the transmit FIFO/Buffer is cleared out.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SFIFO</name>
<description>UART FIFO Status Register</description>
<addressOffset>0x12</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xC0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXUF</name>
<description>Receiver Buffer Underflow Flag</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No receive buffer underflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one receive buffer underflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXOF</name>
<description>Transmitter Buffer Overflow Flag</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No transmit buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one transmit buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXOF</name>
<description>Receiver Buffer Overflow Flag</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No receive buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one receive buffer overflow has occurred since the last time the flag was cleared.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RXEMPT</name>
<description>Receive Buffer/FIFO Empty</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Receive buffer is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Receive buffer is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TXEMPT</name>
<description>Transmit Buffer/FIFO Empty</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Transmit buffer is not empty.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Transmit buffer is empty.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>TWFIFO</name>
<description>UART FIFO Transmit Watermark</description>
<addressOffset>0x13</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXWATER</name>
<description>Transmit Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TCFIFO</name>
<description>UART FIFO Transmit Count</description>
<addressOffset>0x14</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TXCOUNT</name>
<description>Transmit Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>RWFIFO</name>
<description>UART FIFO Receive Watermark</description>
<addressOffset>0x15</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXWATER</name>
<description>Receive Watermark</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RCFIFO</name>
<description>UART FIFO Receive Count</description>
<addressOffset>0x16</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RXCOUNT</name>
<description>Receive Counter</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>USB0</name>
<description>Universal Serial Bus, OTG Capable Controller</description>
<prependToName>USB0_</prependToName>
<baseAddress>0x40072000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x15D</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>USB0</name>
<value>53</value>
</interrupt>
<registers>
<register>
<name>PERID</name>
<description>Peripheral ID register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0x4</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ID</name>
<description>Peripheral Identification</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>IDCOMP</name>
<description>Peripheral ID Complement register</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0xFB</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>NID</name>
<description>Ones&apos; complement of PERID[ID] bits.</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>REV</name>
<description>Peripheral Revision register</description>
<addressOffset>0x8</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0x33</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>REV</name>
<description>Revision</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>ADDINFO</name>
<description>Peripheral Additional Info register</description>
<addressOffset>0xC</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0x1</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>IEHOST</name>
<description>This bit is set if host mode is enabled.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>OTGISTAT</name>
<description>OTG Interrupt Status register</description>
<addressOffset>0x10</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LINE_STATE_CHG</name>
<description>This interrupt is set when the USB line state (CTL[SE0] and CTL[JSTATE] bits) are stable without change for 1 millisecond, and the value of the line state is different from the last time when the line state was stable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ONEMSEC</name>
<description>This bit is set when the 1 millisecond timer expires</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>OTGICR</name>
<description>OTG Interrupt Control register</description>
<addressOffset>0x14</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LINESTATEEN</name>
<description>Line State Change Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the LINE_STAT_CHG interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the LINE_STAT_CHG interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ONEMSECEN</name>
<description>One Millisecond Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Diables the 1ms timer interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the 1ms timer interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>OTGSTAT</name>
<description>OTG Status register</description>
<addressOffset>0x18</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LINESTATESTABLE</name>
<description>Indicates that the internal signals that control the LINE_STATE_CHG field of OTGISTAT are stable for at least 1 ms</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The LINE_STAT_CHG bit is not yet stable.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The LINE_STAT_CHG bit has been debounced and is stable.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ONEMSECEN</name>
<description>This bit is reserved for the 1ms count, but it is not useful to software.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>OTGCTL</name>
<description>OTG Control register</description>
<addressOffset>0x1C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>OTGEN</name>
<description>On-The-Go pullup/pulldown resistor enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If USB_EN is 1 and HOST_MODE is 0 in the Control Register (CTL), then the D+ Data Line pull-up resistors are enabled. If HOST_MODE is 1 the D+ and D- Data Line pull-down resistors are engaged.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The pull-up and pull-down controls in this register are used.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMLOW</name>
<description>D- Data Line pull-down resistor enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>D- pulldown resistor is not enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>D- pulldown resistor is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DPLOW</name>
<description>D+ Data Line pull-down resistor enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>D+ pulldown resistor is not enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>D+ pulldown resistor is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DPHIGH</name>
<description>D+ Data Line pullup resistor enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>D+ pullup resistor is not enabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>D+ pullup resistor is enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ISTAT</name>
<description>Interrupt Status register</description>
<addressOffset>0x80</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>USBRST</name>
<description>This bit is set when the USB Module has decoded a valid USB reset</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ERROR</name>
<description>This bit is set when any of the error conditions within Error Interrupt Status (ERRSTAT) register occur</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SOFTOK</name>
<description>This bit is set when the USB Module receives a Start Of Frame (SOF) token</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TOKDNE</name>
<description>This bit is set when the current token being processed has completed</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SLEEP</name>
<description>This bit is set when the USB Module detects a constant idle on the USB bus for 3 ms</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RESUME</name>
<description>This bit is set when a K-state is observed on the DP/DM signals for 2</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ATTACH</name>
<description>Attach Interrupt</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No Attach is detected since the last time the ATTACH bit was cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A peripheral is now present and must be configured (a stable non-SE0 state is detected for more than 2.5 us).</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL</name>
<description>Stall Interrupt</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>INTEN</name>
<description>Interrupt Enable register</description>
<addressOffset>0x84</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>USBRSTEN</name>
<description>USBRST Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the USBRST interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the USBRST interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ERROREN</name>
<description>ERROR Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the ERROR interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the ERROR interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SOFTOKEN</name>
<description>SOFTOK Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disbles the SOFTOK interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the SOFTOK interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TOKDNEEN</name>
<description>TOKDNE Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the TOKDNE interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the TOKDNE interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLEEPEN</name>
<description>SLEEP Interrupt Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the SLEEP interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the SLEEP interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RESUMEEN</name>
<description>RESUME Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the RESUME interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the RESUME interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ATTACHEN</name>
<description>ATTACH Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the ATTACH interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the ATTACH interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALLEN</name>
<description>STALL Interrupt Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Diasbles the STALL interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the STALL interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ERRSTAT</name>
<description>Error Interrupt Status register</description>
<addressOffset>0x88</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PIDERR</name>
<description>This bit is set when the PID check field fails.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CRC5EOF</name>
<description>This error interrupt has two functions</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>CRC16</name>
<description>This bit is set when a data packet is rejected due to a CRC16 error.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DFN8</name>
<description>This bit is set if the data field received was not 8 bits in length</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BTOERR</name>
<description>This bit is set when a bus turnaround timeout error occurs</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DMAERR</name>
<description>This bit is set if the USB Module has requested a DMA access to read a new BDT but has not been given the bus before it needs to receive or transmit data</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>OWNERR</name>
<description>This field is valid when the USB Module is operating in peripheral mode (CTL[HOSTMODEEN]=0)</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>BTSERR</name>
<description>This bit is set when a bit stuff error is detected</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ERREN</name>
<description>Error Interrupt Enable register</description>
<addressOffset>0x8C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PIDERREN</name>
<description>PIDERR Interrupt Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the PIDERR interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enters the PIDERR interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRC5EOFEN</name>
<description>CRC5/EOF Interrupt Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the CRC5/EOF interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the CRC5/EOF interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CRC16EN</name>
<description>CRC16 Interrupt Enable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the CRC16 interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the CRC16 interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DFN8EN</name>
<description>DFN8 Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DFN8 interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DFN8 interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BTOERREN</name>
<description>BTOERR Interrupt Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the BTOERR interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the BTOERR interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMAERREN</name>
<description>DMAERR Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the DMAERR interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the DMAERR interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OWNERREN</name>
<description>OWNERR Interrupt Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the OWNERR interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the OWNERR interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BTSERREN</name>
<description>BTSERR Interrupt Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the BTSERR interrupt.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the BTSERR interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STAT</name>
<description>Status register</description>
<addressOffset>0x90</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ODD</name>
<description>This bit is set if the last buffer descriptor updated was in the odd bank of the BDT.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
<field>
<name>TX</name>
<description>Transmit Indicator</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The most recent transaction was a receive operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The most recent transaction was a transmit operation.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ENDP</name>
<description>This four-bit field encodes the endpoint address that received or transmitted the previous token</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>CTL</name>
<description>Control register</description>
<addressOffset>0x94</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>USBENSOFEN</name>
<description>USB Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disables the USB Module.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enables the USB Module.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ODDRST</name>
<description>Setting this bit to 1 resets all the BDT ODD ping/pong fields to 0, which then specifies the EVEN BDT bank</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RESUME</name>
<description>When set to 1 this bit enables the USB Module to execute resume signaling</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HOSTMODEEN</name>
<description>When set to 1, this bit enables the USB Module to operate in Host mode</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RESET</name>
<description>Setting this bit enables the USB Module to generate USB reset signaling</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TXSUSPENDTOKENBUSY</name>
<description>In Host mode, TOKEN_BUSY is set when the USB module is busy executing a USB token</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>SE0</name>
<description>Live USB Single Ended Zero signal</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>JSTATE</name>
<description>Live USB differential receiver JSTATE signal</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>ADDR</name>
<description>Address register</description>
<addressOffset>0x98</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ADDR</name>
<description>USB Address</description>
<bitOffset>0</bitOffset>
<bitWidth>7</bitWidth>
<access>read-write</access>
</field>
<field>
<name>LSEN</name>
<description>Low Speed Enable bit</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>BDTPAGE1</name>
<description>BDT Page register 1</description>
<addressOffset>0x9C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BDTBA</name>
<description>Provides address bits 15 through 9 of the BDT base address.</description>
<bitOffset>1</bitOffset>
<bitWidth>7</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>FRMNUML</name>
<description>Frame Number register Low</description>
<addressOffset>0xA0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>FRM</name>
<description>This 8-bit field and the 3-bit field in the Frame Number Register High are used to compute the address where the current Buffer Descriptor Table (BDT) resides in system memory</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>FRMNUMH</name>
<description>Frame Number register High</description>
<addressOffset>0xA4</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>FRM</name>
<description>This 3-bit field and the 8-bit field in the Frame Number Register Low are used to compute the address where the current Buffer Descriptor Table (BDT) resides in system memory</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>TOKEN</name>
<description>Token register</description>
<addressOffset>0xA8</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>TOKENENDPT</name>
<description>Holds the Endpoint address for the token command</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
</field>
<field>
<name>TOKENPID</name>
<description>Contains the token type executed by the USB module.</description>
<bitOffset>4</bitOffset>
<bitWidth>4</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0001</name>
<description>OUT Token. USB Module performs an OUT (TX) transaction.</description>
<value>#0001</value>
</enumeratedValue>
<enumeratedValue>
<name>1001</name>
<description>IN Token. USB Module performs an In (RX) transaction.</description>
<value>#1001</value>
</enumeratedValue>
<enumeratedValue>
<name>1101</name>
<description>SETUP Token. USB Module performs a SETUP (TX) transaction</description>
<value>#1101</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SOFTHLD</name>
<description>SOF Threshold register</description>
<addressOffset>0xAC</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>CNT</name>
<description>Represents the SOF count threshold in byte times when SOFDYNTHLD=0 or 8 byte times when SOFDYNTHLD=1</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>BDTPAGE2</name>
<description>BDT Page Register 2</description>
<addressOffset>0xB0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BDTBA</name>
<description>Provides address bits 23 through 16 of the BDT base address that defines the location of Buffer Descriptor Table resides in system memory</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>BDTPAGE3</name>
<description>BDT Page Register 3</description>
<addressOffset>0xB4</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BDTBA</name>
<description>Provides address bits 31 through 24 of the BDT base address that defines the location of Buffer Descriptor Table resides in system memory</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<dim>16</dim>
<dimIncrement>0x4</dimIncrement>
<dimIndex>0,1,2,3,4,5,6,7,8,9,10,11,12,13,14,15</dimIndex>
<name>ENDPT%s</name>
<description>Endpoint Control register</description>
<addressOffset>0xC0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>EPHSHK</name>
<description>When set this bit enables an endpoint to perform handshaking during a transaction to this endpoint</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPSTALL</name>
<description>When set, this bit indicates that the endpoint is stalled</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPTXEN</name>
<description>This bit, when set, enables the endpoint for TX transfers. See</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPRXEN</name>
<description>This bit, when set, enables the endpoint for RX transfers. See</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>EPCTLDIS</name>
<description>This bit, when set, disables control (SETUP) transfers</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>RETRYDIS</name>
<description>This is a Host mode only bit and is present in the control register for endpoint 0 (ENDPT0) only</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>HOSTWOHUB</name>
<description>Host without a hub This is a Host mode only field and is present in the control register for endpoint 0 (ENDPT0) only</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low-speed device connected to Host through a hub. PRE_PID will be generated as required.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Low-speed device directly connected. No hub, or no low-speed device attached.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>USBCTRL</name>
<description>USB Control register</description>
<addressOffset>0x100</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0xC0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>UARTSEL</name>
<description>Selects USB signals to be used as UART signals.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>USB signals not used as UART signals.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>USB signals used as UART signals.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UARTCHLS</name>
<description>UART Signal Channel Select</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>USB DP/DM signals used as UART TX/RX.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>USB DP/DM signals used as UART RX/TX.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDE</name>
<description>Enables the weak pulldowns on the USB transceiver.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Weak pulldowns are disabled on D+ and D-.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Weak pulldowns are enabled on D+ and D-.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SUSP</name>
<description>Places the USB transceiver into the suspend state.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>USB transceiver is not in suspend state.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>USB transceiver is in suspend state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>OBSERVE</name>
<description>USB OTG Observe register</description>
<addressOffset>0x104</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0x50</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DMPD</name>
<description>Provides observability of the D- Pulldown enable at the USB transceiver.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>D- pulldown disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>D- pulldown enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DPPD</name>
<description>Provides observability of the D+ Pulldown enable at the USB transceiver.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>D+ pulldown disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>D+ pulldown enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DPPU</name>
<description>Provides observability of the D+ Pullup enable at the USB transceiver.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>D+ pullup disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>D+ pullup enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CONTROL</name>
<description>USB OTG Control register</description>
<addressOffset>0x108</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>DPPULLUPNONOTG</name>
<description>Provides control of the DP Pullup in USBOTG, if USB is configured in non-OTG device mode.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DP Pullup in non-OTG device mode is not enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DP Pullup in non-OTG device mode is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>USBTRC0</name>
<description>USB Transceiver Control register 0</description>
<addressOffset>0x10C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>USB_RESUME_INT</name>
<description>USB Asynchronous Interrupt</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt was generated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt was generated because of the USB asynchronous interrupt.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYNC_DET</name>
<description>Synchronous USB Interrupt Detect</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Synchronous interrupt has not been detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Synchronous interrupt has been detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USB_CLK_RECOVERY_INT</name>
<description>Combined USB Clock Recovery interrupt status</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
<field>
<name>VREDG_DET</name>
<description>VREGIN Rising Edge Interrupt Detect</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>VREGIN rising edge interrupt has not been detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>VREGIN rising edge interrupt has been detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VFEDG_DET</name>
<description>VREGIN Falling Edge Interrupt Detect</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>VREGIN falling edge interrupt has not been detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>VREGIN falling edge interrupt has been detected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USBRESMEN</name>
<description>Asynchronous Resume Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>USB asynchronous wakeup from suspend mode disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>USB asynchronous wakeup from suspend mode enabled. The asynchronous resume interrupt differs from the synchronous resume interrupt in that it asynchronously detects K-state using the unfiltered state of the D+ and D- pins. This interrupt should only be enabled when the Transceiver is suspended.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USBRESET</name>
<description>USB Reset</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Normal USB module operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Returns the USB module to its reset state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>USBFRMADJUST</name>
<description>Frame Adjust Register</description>
<addressOffset>0x114</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>ADJ</name>
<description>Frame Adjustment</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>MISCCTRL</name>
<description>Miscellaneous Control register</description>
<addressOffset>0x12C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SOFDYNTHLD</name>
<description>Dynamic SOF Threshold Compare mode</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>SOF_TOK interrupt is set when byte times SOF threshold is reached.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>SOF_TOK interrupt is set when 8 byte times SOF threshold is reached or overstepped.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SOFBUSSET</name>
<description>SOF_TOK Interrupt Generation Mode Select</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>SOF_TOK interrupt is set according to SOF threshold value.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>SOF_TOK interrupt is set when SOF counter reaches 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OWNERRISODIS</name>
<description>OWN Error Detect for ISO IN / ISO OUT Disable</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>OWN error detect for ISO IN / ISO OUT is not disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>OWN error detect for ISO IN / ISO OUT is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VREDG_EN</name>
<description>VREGIN Rising Edge Interrupt Enable</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>VREGIN rising edge interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>VREGIN rising edge interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VFEDG_EN</name>
<description>VREGIN Falling Edge Interrupt Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>VREGIN falling edge interrupt disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>VREGIN falling edge interrupt enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STL_ADJ_EN</name>
<description>USB Peripheral mode Stall Adjust Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>If USB_ENDPTn[END_STALL] = 1, both IN and OUT directions for the associated endpoint will be stalled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>If USB_ENDPTn[END_STALL] = 1, the USB_STALL_xx_DIS registers control which directions for the associated endpoint will be stalled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STALL_IL_DIS</name>
<description>Peripheral mode stall disable for endpoints 7 to 0 in IN direction</description>
<addressOffset>0x130</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>STALL_I_DIS0</name>
<description>Disable endpoint 0 IN direction.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 0 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 0 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS1</name>
<description>Disable endpoint 1 IN direction.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 1 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 1 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS2</name>
<description>Disable endpoint 2 IN direction.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 2 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 2 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS3</name>
<description>Disable endpoint 3 IN direction.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 3 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 3 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS4</name>
<description>Disable endpoint 4 IN direction.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 4 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 4 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS5</name>
<description>Disable endpoint 5 IN direction.</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 5 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 5 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS6</name>
<description>Disable endpoint 6 IN direction.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 6 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 6 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS7</name>
<description>Disable endpoint 7 IN direction.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 7 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 7 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STALL_IH_DIS</name>
<description>Peripheral mode stall disable for endpoints 15 to 8 in IN direction</description>
<addressOffset>0x134</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>STALL_I_DIS8</name>
<description>Disable endpoint 8 IN direction.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 8 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 8 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS9</name>
<description>Disable endpoint 9 IN direction.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 9 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 9 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS10</name>
<description>Disable endpoint 10 IN direction.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 10 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 10 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS11</name>
<description>Disable endpoint 11 IN direction.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 11 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 11 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS12</name>
<description>Disable endpoint 12 IN direction.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 12 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 12 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS13</name>
<description>Disable endpoint 13 IN direction.</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 13 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 13 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS14</name>
<description>Disable endpoint 14 IN direction.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 14 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 14 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_I_DIS15</name>
<description>Disable endpoint 15 IN direction.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 15 IN direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 15 IN direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STALL_OL_DIS</name>
<description>Peripheral mode stall disable for endpoints 7 to 0 in OUT direction</description>
<addressOffset>0x138</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>STALL_O_DIS0</name>
<description>Disable endpoint 0 OUT direction.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 0 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 0 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS1</name>
<description>Disable endpoint 1 OUT direction.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 1 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 1 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS2</name>
<description>Disable endpoint 2 OUT direction.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 2 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 2 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS3</name>
<description>Disable endpoint 3 OUT direction.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 3 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 3 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS4</name>
<description>Disable endpoint 4 OUT direction.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 4 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 4 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS5</name>
<description>Disable endpoint 5 OUT direction.</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 5 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 5 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS6</name>
<description>Disable endpoint 6 OUT direction.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 6 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 6 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS7</name>
<description>Disable endpoint 7 OUT direction.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 7 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 7 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STALL_OH_DIS</name>
<description>Peripheral mode stall disable for endpoints 15 to 8 in OUT direction</description>
<addressOffset>0x13C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>STALL_O_DIS8</name>
<description>Disable endpoint 8 OUT direction.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 8 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 8 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS9</name>
<description>Disable endpoint 9 OUT direction.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 9 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 9 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS10</name>
<description>Disable endpoint 10 OUT direction.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 10 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 10 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS11</name>
<description>Disable endpoint 11 OUT direction.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 11 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 11 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS12</name>
<description>Disable endpoint 12 OUT direction.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 12 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 12 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS13</name>
<description>Disable endpoint 13 OUT direction.</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 13 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 13 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS14</name>
<description>Disable endpoint 14 OUT direction.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 14 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 14 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STALL_O_DIS15</name>
<description>Disable endpoint 15 OUT direction.</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Endpoint 15 OUT direction stall is enabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Endpoint 15 OUT direction stall is disabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CLK_RECOVER_CTRL</name>
<description>USB Clock recovery control</description>
<addressOffset>0x140</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RESTART_IFRTRIM_EN</name>
<description>Restart from IFR trim value</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trim fine adjustment always works based on the previous updated trim fine value (default)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trim fine restarts from the IFR trim value whenever bus_reset/bus_resume is detected or module enable is desasserted</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RESET_RESUME_ROUGH_EN</name>
<description>Reset/resume to rough phase enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Always works in tracking phase after the first time rough to track transition (default)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Go back to rough stage whenever bus reset or bus resume occurs</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLOCK_RECOVER_EN</name>
<description>Crystal-less USB enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable clock recovery block (default)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable clock recovery block</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CLK_RECOVER_IRC_EN</name>
<description>IRC48M oscillator enable register</description>
<addressOffset>0x144</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>REG_EN</name>
<description>IRC48M regulator enable This bit is used to enable the local analog regulator for IRC48M module</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IRC48M local regulator is disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>IRC48M local regulator is enabled (default)</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IRC_EN</name>
<description>IRC48M enable This bit is used to enable the on-chip IRC48M module to generate clocks for crystal-less USB</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable the IRC48M module (default)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable the IRC48M module</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CLK_RECOVER_INT_EN</name>
<description>Clock recovery combined interrupt enable</description>
<addressOffset>0x154</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x10</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>OVF_ERROR_EN</name>
<description>Determines whether OVF_ERROR condition signal is used in generation of USB_CLK_RECOVERY_INT.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The interrupt will be masked</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The interrupt will be enabled (default)</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CLK_RECOVER_INT_STATUS</name>
<description>Clock recovery separated interrupt status</description>
<addressOffset>0x15C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>OVF_ERROR</name>
<description>Indicates that the USB clock recovery algorithm has detected that the frequency trim adjustment needed for the IRC48M output clock is outside the available TRIM_FINE adjustment range for the IRC48M module</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt is reported</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Unmasked interrupt has been generated</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>CMP0</name>
<description>High-Speed Comparator (CMP), Voltage Reference (VREF) Digital-to-Analog Converter (DAC), and Analog Mux (ANMUX)</description>
<prependToName>CMP0_</prependToName>
<baseAddress>0x40073000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x6</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>CMP0</name>
<value>40</value>
</interrupt>
<registers>
<register>
<name>CR0</name>
<description>CMP Control Register 0</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>HYSTCTR</name>
<description>Comparator hard block hysteresis control</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Level 0</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Level 1</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Level 2</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Level 3</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTER_CNT</name>
<description>Filter Sample Count</description>
<bitOffset>4</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Filter is disabled. If SE = 1, then COUT is a logic 0. This is not a legal state, and is not recommended. If SE = 0, COUT = COUTA.</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>One sample must agree. The comparator output is simply sampled.</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>2 consecutive samples must agree.</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>3 consecutive samples must agree.</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>4 consecutive samples must agree.</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>5 consecutive samples must agree.</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>6 consecutive samples must agree.</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>7 consecutive samples must agree.</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CR1</name>
<description>CMP Control Register 1</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>EN</name>
<description>Comparator Module Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Analog Comparator is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Analog Comparator is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>OPE</name>
<description>Comparator Output Pin Enable</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>CMPO is not available on the associated CMPO output pin. If the comparator does not own the pin, this field has no effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>CMPO is available on the associated CMPO output pin. The comparator output (CMPO) is driven out on the associated CMPO output pin if the comparator owns the pin. If the comparator does not own the field, this bit has no effect.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COS</name>
<description>Comparator Output Select</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Set the filtered comparator output (CMPO) to equal COUT.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Set the unfiltered comparator output (CMPO) to equal COUTA.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INV</name>
<description>Comparator INVERT</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Does not invert the comparator output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Inverts the comparator output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PMODE</name>
<description>Power Mode Select</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low-Speed (LS) Comparison mode selected. In this mode, CMP has slower output propagation delay and lower current consumption.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High-Speed (HS) Comparison mode selected. In this mode, CMP has faster output propagation delay and higher current consumption.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TRIGM</name>
<description>Trigger Mode Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Trigger mode is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Trigger mode is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WE</name>
<description>Windowing Enable</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Windowing mode is not selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Windowing mode is selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SE</name>
<description>Sample Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Sampling mode is not selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Sampling mode is selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FPR</name>
<description>CMP Filter Period Register</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>FILT_PER</name>
<description>Filter Sample Period</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SCR</name>
<description>CMP Status and Control Register</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>COUT</name>
<description>Analog Comparator Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
<field>
<name>CFF</name>
<description>Analog Comparator Flag Falling</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Falling-edge on COUT has not been detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Falling-edge on COUT has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CFR</name>
<description>Analog Comparator Flag Rising</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Rising-edge on COUT has not been detected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Rising-edge on COUT has occurred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IEF</name>
<description>Comparator Interrupt Enable Falling</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IER</name>
<description>Comparator Interrupt Enable Rising</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Interrupt is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DMAEN</name>
<description>DMA Enable Control</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DMA is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DMA is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>DACCR</name>
<description>DAC Control Register</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>VOSEL</name>
<description>DAC Output Voltage Select</description>
<bitOffset>0</bitOffset>
<bitWidth>6</bitWidth>
<access>read-write</access>
</field>
<field>
<name>VRSEL</name>
<description>Supply Voltage Reference Source Select</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Vin1 is selected as resistor ladder network supply reference.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Vin2 is selected as resistor ladder network supply reference.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACEN</name>
<description>DAC Enable</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DAC is disabled.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DAC is enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MUXCR</name>
<description>MUX Control Register</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MSEL</name>
<description>Minus Input Mux Control</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>IN0</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>IN1</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>IN2</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>IN3</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>IN4</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>IN5</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>IN6</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>IN7</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PSEL</name>
<description>Plus Input Mux Control</description>
<bitOffset>3</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>IN0</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>IN1</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>IN2</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>IN3</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>IN4</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>101</name>
<description>IN5</description>
<value>#101</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>IN6</description>
<value>#110</value>
</enumeratedValue>
<enumeratedValue>
<name>111</name>
<description>IN7</description>
<value>#111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>LLWU</name>
<description>Low leakage wakeup unit</description>
<prependToName>LLWU_</prependToName>
<baseAddress>0x4007C000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x10</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>LLWU</name>
<value>21</value>
</interrupt>
<registers>
<register>
<name>PE1</name>
<description>LLWU Pin Enable 1 register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUPE0</name>
<description>Wakeup Pin Enable For LLWU_P0</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE1</name>
<description>Wakeup Pin Enable For LLWU_P1</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE2</name>
<description>Wakeup Pin Enable For LLWU_P2</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE3</name>
<description>Wakeup Pin Enable For LLWU_P3</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PE2</name>
<description>LLWU Pin Enable 2 register</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUPE4</name>
<description>Wakeup Pin Enable For LLWU_P4</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE5</name>
<description>Wakeup Pin Enable For LLWU_P5</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE6</name>
<description>Wakeup Pin Enable For LLWU_P6</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE7</name>
<description>Wakeup Pin Enable For LLWU_P7</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PE3</name>
<description>LLWU Pin Enable 3 register</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUPE8</name>
<description>Wakeup Pin Enable For LLWU_P8</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE9</name>
<description>Wakeup Pin Enable For LLWU_P9</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE10</name>
<description>Wakeup Pin Enable For LLWU_P10</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE11</name>
<description>Wakeup Pin Enable For LLWU_P11</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PE4</name>
<description>LLWU Pin Enable 4 register</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUPE12</name>
<description>Wakeup Pin Enable For LLWU_P12</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE13</name>
<description>Wakeup Pin Enable For LLWU_P13</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE14</name>
<description>Wakeup Pin Enable For LLWU_P14</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE15</name>
<description>Wakeup Pin Enable For LLWU_P15</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PE5</name>
<description>LLWU Pin Enable 5 register</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUPE16</name>
<description>Wakeup Pin Enable For LLWU_P16</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE17</name>
<description>Wakeup Pin Enable For LLWU_P17</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE18</name>
<description>Wakeup Pin Enable For LLWU_P18</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE19</name>
<description>Wakeup Pin Enable For LLWU_P19</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PE6</name>
<description>LLWU Pin Enable 6 register</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUPE20</name>
<description>Wakeup Pin Enable For LLWU_P20</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE21</name>
<description>Wakeup Pin Enable For LLWU_P21</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE22</name>
<description>Wakeup Pin Enable For LLWU_P22</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE23</name>
<description>Wakeup Pin Enable For LLWU_P23</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PE7</name>
<description>LLWU Pin Enable 7 register</description>
<addressOffset>0x6</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUPE24</name>
<description>Wakeup Pin Enable For LLWU_P24</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE25</name>
<description>Wakeup Pin Enable For LLWU_P25</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE26</name>
<description>Wakeup Pin Enable For LLWU_P26</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE27</name>
<description>Wakeup Pin Enable For LLWU_P27</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PE8</name>
<description>LLWU Pin Enable 8 register</description>
<addressOffset>0x7</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUPE28</name>
<description>Wakeup Pin Enable For LLWU_P28</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE29</name>
<description>Wakeup Pin Enable For LLWU_P29</description>
<bitOffset>2</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE30</name>
<description>Wakeup Pin Enable For LLWU_P30</description>
<bitOffset>4</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUPE31</name>
<description>Wakeup Pin Enable For LLWU_P31</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>External input pin disabled as wakeup input</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>External input pin enabled with rising edge detection</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>External input pin enabled with falling edge detection</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>External input pin enabled with any change detection</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ME</name>
<description>LLWU Module Enable register</description>
<addressOffset>0x8</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUME0</name>
<description>Wakeup Module Enable For Module 0</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal module flag not used as wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal module flag used as wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUME1</name>
<description>Wakeup Module Enable for Module 1</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal module flag not used as wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal module flag used as wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUME2</name>
<description>Wakeup Module Enable For Module 2</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal module flag not used as wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal module flag used as wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUME3</name>
<description>Wakeup Module Enable For Module 3</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal module flag not used as wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal module flag used as wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUME4</name>
<description>Wakeup Module Enable For Module 4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal module flag not used as wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal module flag used as wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUME5</name>
<description>Wakeup Module Enable For Module 5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal module flag not used as wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal module flag used as wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUME6</name>
<description>Wakeup Module Enable For Module 6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal module flag not used as wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal module flag used as wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUME7</name>
<description>Wakeup Module Enable For Module 7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Internal module flag not used as wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Internal module flag used as wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PF1</name>
<description>LLWU Pin Flag 1 register</description>
<addressOffset>0x9</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUF0</name>
<description>Wakeup Flag For LLWU_P0</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P0 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P0 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF1</name>
<description>Wakeup Flag For LLWU_P1</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P1 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P1 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF2</name>
<description>Wakeup Flag For LLWU_P2</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P2 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P2 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF3</name>
<description>Wakeup Flag For LLWU_P3</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P3 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P3 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF4</name>
<description>Wakeup Flag For LLWU_P4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P4 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P4 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF5</name>
<description>Wakeup Flag For LLWU_P5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P5 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P5 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF6</name>
<description>Wakeup Flag For LLWU_P6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P6 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P6 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF7</name>
<description>Wakeup Flag For LLWU_P7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P7 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P7 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PF2</name>
<description>LLWU Pin Flag 2 register</description>
<addressOffset>0xA</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUF8</name>
<description>Wakeup Flag For LLWU_P8</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P8 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P8 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF9</name>
<description>Wakeup Flag For LLWU_P9</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P9 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P9 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF10</name>
<description>Wakeup Flag For LLWU_P10</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P10 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P10 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF11</name>
<description>Wakeup Flag For LLWU_P11</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P11 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P11 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF12</name>
<description>Wakeup Flag For LLWU_P12</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P12 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P12 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF13</name>
<description>Wakeup Flag For LLWU_P13</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P13 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P13 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF14</name>
<description>Wakeup Flag For LLWU_P14</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P14 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P14 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF15</name>
<description>Wakeup Flag For LLWU_P15</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P15 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P15 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PF3</name>
<description>LLWU Pin Flag 3 register</description>
<addressOffset>0xB</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUF16</name>
<description>Wakeup Flag For LLWU_P16</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P16 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P16 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF17</name>
<description>Wakeup Flag For LLWU_P17</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P17 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P17 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF18</name>
<description>Wakeup Flag For LLWU_P18</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P18 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P18 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF19</name>
<description>Wakeup Flag For LLWU_P19</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P19 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P19 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF20</name>
<description>Wakeup Flag For LLWU_P20</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P20 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P20 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF21</name>
<description>Wakeup Flag For LLWU_P21</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P21 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P21 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF22</name>
<description>Wakeup Flag For LLWU_P22</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P22 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P22 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF23</name>
<description>Wakeup Flag For LLWU_P23</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P23 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P23 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PF4</name>
<description>LLWU Pin Flag 4 register</description>
<addressOffset>0xC</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WUF24</name>
<description>Wakeup Flag For LLWU_P24</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P24 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P24 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF25</name>
<description>Wakeup Flag For LLWU_P25</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P25 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P25 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF26</name>
<description>Wakeup Flag For LLWU_P26</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P26 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P26 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF27</name>
<description>Wakeup Flag For LLWU_P27</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P27 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P27 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF28</name>
<description>Wakeup Flag For LLWU_P28</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P28 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P28 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF29</name>
<description>Wakeup Flag For LLWU_P29</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P29 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P29 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF30</name>
<description>Wakeup Flag For LLWU_P30</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P30 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P30 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WUF31</name>
<description>Wakeup Flag For LLWU_P31</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LLWU_P31 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LLWU_P31 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MF5</name>
<description>LLWU Module Flag 5 register</description>
<addressOffset>0xD</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>MWUF0</name>
<description>Wakeup flag For module 0</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module 0 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module 0 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MWUF1</name>
<description>Wakeup flag For module 1</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module 1 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module 1 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MWUF2</name>
<description>Wakeup flag For module 2</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module 2 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module 2 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MWUF3</name>
<description>Wakeup flag For module 3</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module 3 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module 3 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MWUF4</name>
<description>Wakeup flag For module 4</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module 4 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module 4 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MWUF5</name>
<description>Wakeup flag For module 5</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module 5 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module 5 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MWUF6</name>
<description>Wakeup flag For module 6</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module 6 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module 6 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MWUF7</name>
<description>Wakeup flag For module 7</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Module 7 input was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Module 7 input was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FILT1</name>
<description>LLWU Pin Filter 1 register</description>
<addressOffset>0xE</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>FILTSEL</name>
<description>Filter Pin Select</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00000</name>
<description>Select LLWU_P0 for filter</description>
<value>#00000</value>
</enumeratedValue>
<enumeratedValue>
<name>11111</name>
<description>Select LLWU_P31 for filter</description>
<value>#11111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTE</name>
<description>Digital Filter On External Pin</description>
<bitOffset>5</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Filter disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Filter posedge detect enabled</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Filter negedge detect enabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Filter any edge detect enabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTF</name>
<description>Filter Detect Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Filter 1 was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Filter 1 was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FILT2</name>
<description>LLWU Pin Filter 2 register</description>
<addressOffset>0xF</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>FILTSEL</name>
<description>Filter Pin Select</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00000</name>
<description>Select LLWU_P0 for filter</description>
<value>#00000</value>
</enumeratedValue>
<enumeratedValue>
<name>11111</name>
<description>Select LLWU_P31 for filter</description>
<value>#11111</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTE</name>
<description>Digital Filter On External Pin</description>
<bitOffset>5</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Filter disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Filter posedge detect enabled</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Filter negedge detect enabled</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Filter any edge detect enabled</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FILTF</name>
<description>Filter Detect Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin Filter 2 was not a wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin Filter 2 was a wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>PMC</name>
<description>Power Management Controller</description>
<prependToName>PMC_</prependToName>
<baseAddress>0x4007D000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xC</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>LVD_LVW</name>
<value>20</value>
</interrupt>
<registers>
<register>
<name>LVDSC1</name>
<description>Low Voltage Detect Status And Control 1 register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x10</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LVDV</name>
<description>Low-Voltage Detect Voltage Select</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Low trip point selected (V LVD = V LVDL )</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>High trip point selected (V LVD = V LVDH )</description>
<value>#01</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LVDRE</name>
<description>Low-Voltage Detect Reset Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LVDF does not generate hardware resets</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Force an MCU reset when LVDF = 1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LVDIE</name>
<description>Low-Voltage Detect Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupt disabled (use polling)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Request a hardware interrupt when LVDF = 1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LVDACK</name>
<description>Low-Voltage Detect Acknowledge</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
</field>
<field>
<name>LVDF</name>
<description>Low-Voltage Detect Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low-voltage event not detected</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Low-voltage event detected</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>LVDSC2</name>
<description>Low Voltage Detect Status And Control 2 register</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LVWV</name>
<description>Low-Voltage Warning Voltage Select</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Low trip point selected (VLVW = VLVW1)</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Mid 1 trip point selected (VLVW = VLVW2)</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Mid 2 trip point selected (VLVW = VLVW3)</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>High trip point selected (VLVW = VLVW4)</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LVWIE</name>
<description>Low-Voltage Warning Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupt disabled (use polling)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Request a hardware interrupt when LVWF = 1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LVWACK</name>
<description>Low-Voltage Warning Acknowledge</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
</field>
<field>
<name>LVWF</name>
<description>Low-Voltage Warning Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low-voltage warning event not detected</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Low-voltage warning event detected</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>REGSC</name>
<description>Regulator Status And Control register</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x4</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>BGBE</name>
<description>Bandgap Buffer Enable</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bandgap buffer not enabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bandgap buffer enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>REGONS</name>
<description>Regulator In Run Regulation Status</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Regulator is in stop regulation or in transition to/from it</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Regulator is in run regulation</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ACKISO</name>
<description>Acknowledge Isolation</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Peripherals and I/O pads are in normal run state.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Certain peripherals and I/O pads are in an isolated and latched state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BGEN</name>
<description>Bandgap Enable In VLPx Operation</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Bandgap voltage reference is disabled in VLPx , LLS , and VLLSx modes.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Bandgap voltage reference is enabled in VLPx , LLS , and VLLSx modes.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>HVDSC1</name>
<description>High Voltage Detect Status And Control 1 register</description>
<addressOffset>0xB</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x1</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>HVDV</name>
<description>High-Voltage Detect Voltage Select</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Low trip point selected (V HVD = V HVDL )</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High trip point selected (V HVD = V HVDH )</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HVDRE</name>
<description>High-Voltage Detect Reset Enable</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>HVDF does not generate hardware resets</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Force an MCU reset when HVDF = 1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HVDIE</name>
<description>High-Voltage Detect Interrupt Enable</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Hardware interrupt disabled (use polling)</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Request a hardware interrupt when HVDF = 1</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HVDACK</name>
<description>High-Voltage Detect Acknowledge</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
</field>
<field>
<name>HVDF</name>
<description>High-Voltage Detect Flag</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>High-voltage event not detected</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>High-voltage event detected</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>SMC</name>
<description>System Mode Controller</description>
<prependToName>SMC_</prependToName>
<baseAddress>0x4007E000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x4</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>PMPROT</name>
<description>Power Mode Protection register</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>AVLLS</name>
<description>Allow Very-Low-Leakage Stop Mode</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Any VLLSx mode is not allowed</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Any VLLSx mode is allowed</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ALLS</name>
<description>Allow Low-Leakage Stop Mode</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Any LLSx mode is not allowed</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Any LLSx mode is allowed</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AVLP</name>
<description>Allow Very-Low-Power Modes</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>VLPR, VLPW, and VLPS are not allowed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>VLPR, VLPW, and VLPS are allowed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AHSRUN</name>
<description>Allow High Speed Run mode</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>HSRUN is not allowed</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>HSRUN is allowed</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PMCTRL</name>
<description>Power Mode Control register</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>STOPM</name>
<description>Stop Mode Control</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>Normal Stop (STOP)</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>Very-Low-Power Stop (VLPS)</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>Low-Leakage Stop (LLSx)</description>
<value>#011</value>
</enumeratedValue>
<enumeratedValue>
<name>100</name>
<description>Very-Low-Leakage Stop (VLLSx)</description>
<value>#100</value>
</enumeratedValue>
<enumeratedValue>
<name>110</name>
<description>Reseved</description>
<value>#110</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STOPA</name>
<description>Stop Aborted</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The previous stop mode entry was successsful.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The previous stop mode entry was aborted.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RUNM</name>
<description>Run Mode Control</description>
<bitOffset>5</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Normal Run mode (RUN)</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Very-Low-Power Run mode (VLPR)</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>High Speed Run mode (HSRUN)</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>STOPCTRL</name>
<description>Stop Control Register</description>
<addressOffset>0x2</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x3</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>LLSM</name>
<description>LLS or VLLS Mode Control</description>
<bitOffset>0</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>000</name>
<description>VLLS0 if PMCTRL[STOPM]=VLLSx, reserved if PMCTRL[STOPM]=LLSx</description>
<value>#000</value>
</enumeratedValue>
<enumeratedValue>
<name>001</name>
<description>VLLS1 if PMCTRL[STOPM]=VLLSx, reserved if PMCTRL[STOPM]=LLSx</description>
<value>#001</value>
</enumeratedValue>
<enumeratedValue>
<name>010</name>
<description>VLLS2 if PMCTRL[STOPM]=VLLSx, LLS2 if PMCTRL[STOPM]=LLSx</description>
<value>#010</value>
</enumeratedValue>
<enumeratedValue>
<name>011</name>
<description>VLLS3 if PMCTRL[STOPM]=VLLSx, LLS3 if PMCTRL[STOPM]=LLSx</description>
<value>#011</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LPOPO</name>
<description>LPO Power Option</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>LPO clock is enabled in LLS/VLLSx</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPO clock is disabled in LLS/VLLSx</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PORPO</name>
<description>POR Power Option</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>POR detect circuit is enabled in VLLS0</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>POR detect circuit is disabled in VLLS0</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PSTOPO</name>
<description>Partial Stop Option</description>
<bitOffset>6</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>STOP - Normal Stop mode</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>PSTOP1 - Partial Stop with both system and bus clocks disabled</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>PSTOP2 - Partial Stop with system clock disabled and bus clock enabled</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PMSTAT</name>
<description>Power Mode Status register</description>
<addressOffset>0x3</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0x1</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PMSTAT</name>
<description>Power Mode Status</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>RCM</name>
<description>Reset Control Module</description>
<prependToName>RCM_</prependToName>
<baseAddress>0x4007F000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xA</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>SRS0</name>
<description>System Reset Status Register 0</description>
<addressOffset>0</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0x82</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>WAKEUP</name>
<description>Low Leakage Wakeup Reset</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by LLWU module wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by LLWU module wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LVD</name>
<description>Low-Voltage Detect Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by LVD trip or POR</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by LVD trip or POR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOC</name>
<description>Loss-of-Clock Reset</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by a loss of external clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by a loss of external clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOL</name>
<description>Loss-of-Lock Reset</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by a loss of lock in the PLL</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by a loss of lock in the PLL</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>WDOG</name>
<description>Watchdog</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by watchdog timeout</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by watchdog timeout</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PIN</name>
<description>External Reset Pin</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by external reset pin</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by external reset pin</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>POR</name>
<description>Power-On Reset</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by POR</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by POR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SRS1</name>
<description>System Reset Status Register 1</description>
<addressOffset>0x1</addressOffset>
<size>8</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>JTAG</name>
<description>JTAG Generated Reset</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by JTAG</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by JTAG</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LOCKUP</name>
<description>Core Lockup</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by core LOCKUP event</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by core LOCKUP event</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SW</name>
<description>Software</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by software setting of SYSRESETREQ bit</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by software setting of SYSRESETREQ bit</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MDM_AP</name>
<description>MDM-AP System Reset Request</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by host debugger system setting of the System Reset Request bit</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by host debugger system setting of the System Reset Request bit</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SACKERR</name>
<description>Stop Mode Acknowledge Error Reset</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by peripheral failure to acknowledge attempt to enter stop mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by peripheral failure to acknowledge attempt to enter stop mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RPFC</name>
<description>Reset Pin Filter Control register</description>
<addressOffset>0x4</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RSTFLTSRW</name>
<description>Reset Pin Filter Select in Run and Wait Modes</description>
<bitOffset>0</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>All filtering disabled</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Bus clock filter enabled for normal operation</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>LPO clock filter enabled for normal operation</description>
<value>#10</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>RSTFLTSS</name>
<description>Reset Pin Filter Select in Stop Mode</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>All filtering disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>LPO clock filter enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>RPFW</name>
<description>Reset Pin Filter Width register</description>
<addressOffset>0x5</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>RSTFLTSEL</name>
<description>Reset Pin Filter Bus Clock Select</description>
<bitOffset>0</bitOffset>
<bitWidth>5</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00000</name>
<description>Bus clock filter count is 1</description>
<value>#00000</value>
</enumeratedValue>
<enumeratedValue>
<name>00001</name>
<description>Bus clock filter count is 2</description>
<value>#00001</value>
</enumeratedValue>
<enumeratedValue>
<name>00010</name>
<description>Bus clock filter count is 3</description>
<value>#00010</value>
</enumeratedValue>
<enumeratedValue>
<name>00011</name>
<description>Bus clock filter count is 4</description>
<value>#00011</value>
</enumeratedValue>
<enumeratedValue>
<name>00100</name>
<description>Bus clock filter count is 5</description>
<value>#00100</value>
</enumeratedValue>
<enumeratedValue>
<name>00101</name>
<description>Bus clock filter count is 6</description>
<value>#00101</value>
</enumeratedValue>
<enumeratedValue>
<name>00110</name>
<description>Bus clock filter count is 7</description>
<value>#00110</value>
</enumeratedValue>
<enumeratedValue>
<name>00111</name>
<description>Bus clock filter count is 8</description>
<value>#00111</value>
</enumeratedValue>
<enumeratedValue>
<name>01000</name>
<description>Bus clock filter count is 9</description>
<value>#01000</value>
</enumeratedValue>
<enumeratedValue>
<name>01001</name>
<description>Bus clock filter count is 10</description>
<value>#01001</value>
</enumeratedValue>
<enumeratedValue>
<name>01010</name>
<description>Bus clock filter count is 11</description>
<value>#01010</value>
</enumeratedValue>
<enumeratedValue>
<name>01011</name>
<description>Bus clock filter count is 12</description>
<value>#01011</value>
</enumeratedValue>
<enumeratedValue>
<name>01100</name>
<description>Bus clock filter count is 13</description>
<value>#01100</value>
</enumeratedValue>
<enumeratedValue>
<name>01101</name>
<description>Bus clock filter count is 14</description>
<value>#01101</value>
</enumeratedValue>
<enumeratedValue>
<name>01110</name>
<description>Bus clock filter count is 15</description>
<value>#01110</value>
</enumeratedValue>
<enumeratedValue>
<name>01111</name>
<description>Bus clock filter count is 16</description>
<value>#01111</value>
</enumeratedValue>
<enumeratedValue>
<name>10000</name>
<description>Bus clock filter count is 17</description>
<value>#10000</value>
</enumeratedValue>
<enumeratedValue>
<name>10001</name>
<description>Bus clock filter count is 18</description>
<value>#10001</value>
</enumeratedValue>
<enumeratedValue>
<name>10010</name>
<description>Bus clock filter count is 19</description>
<value>#10010</value>
</enumeratedValue>
<enumeratedValue>
<name>10011</name>
<description>Bus clock filter count is 20</description>
<value>#10011</value>
</enumeratedValue>
<enumeratedValue>
<name>10100</name>
<description>Bus clock filter count is 21</description>
<value>#10100</value>
</enumeratedValue>
<enumeratedValue>
<name>10101</name>
<description>Bus clock filter count is 22</description>
<value>#10101</value>
</enumeratedValue>
<enumeratedValue>
<name>10110</name>
<description>Bus clock filter count is 23</description>
<value>#10110</value>
</enumeratedValue>
<enumeratedValue>
<name>10111</name>
<description>Bus clock filter count is 24</description>
<value>#10111</value>
</enumeratedValue>
<enumeratedValue>
<name>11000</name>
<description>Bus clock filter count is 25</description>
<value>#11000</value>
</enumeratedValue>
<enumeratedValue>
<name>11001</name>
<description>Bus clock filter count is 26</description>
<value>#11001</value>
</enumeratedValue>
<enumeratedValue>
<name>11010</name>
<description>Bus clock filter count is 27</description>
<value>#11010</value>
</enumeratedValue>
<enumeratedValue>
<name>11011</name>
<description>Bus clock filter count is 28</description>
<value>#11011</value>
</enumeratedValue>
<enumeratedValue>
<name>11100</name>
<description>Bus clock filter count is 29</description>
<value>#11100</value>
</enumeratedValue>
<enumeratedValue>
<name>11101</name>
<description>Bus clock filter count is 30</description>
<value>#11101</value>
</enumeratedValue>
<enumeratedValue>
<name>11110</name>
<description>Bus clock filter count is 31</description>
<value>#11110</value>
</enumeratedValue>
<enumeratedValue>
<name>11111</name>
<description>Bus clock filter count is 32</description>
<value>#11111</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SSRS0</name>
<description>Sticky System Reset Status Register 0</description>
<addressOffset>0x8</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0x82</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SWAKEUP</name>
<description>Sticky Low Leakage Wakeup Reset</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by LLWU module wakeup source</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by LLWU module wakeup source</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLVD</name>
<description>Sticky Low-Voltage Detect Reset</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by LVD trip or POR</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by LVD trip or POR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLOC</name>
<description>Sticky Loss-of-Clock Reset</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by a loss of external clock.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by a loss of external clock.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLOL</name>
<description>Sticky Loss-of-Lock Reset</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by a loss of lock in the PLL</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by a loss of lock in the PLL</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SWDOG</name>
<description>Sticky Watchdog</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by watchdog timeout</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by watchdog timeout</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SPIN</name>
<description>Sticky External Reset Pin</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by external reset pin</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by external reset pin</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SPOR</name>
<description>Sticky Power-On Reset</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by POR</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by POR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SSRS1</name>
<description>Sticky System Reset Status Register 1</description>
<addressOffset>0x9</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>SJTAG</name>
<description>Sticky JTAG Generated Reset</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by JTAG</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by JTAG</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLOCKUP</name>
<description>Sticky Core Lockup</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by core LOCKUP event</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by core LOCKUP event</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SSW</name>
<description>Sticky Software</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by software setting of SYSRESETREQ bit</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by software setting of SYSRESETREQ bit</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SMDM_AP</name>
<description>Sticky MDM-AP System Reset Request</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by host debugger system setting of the System Reset Request bit</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by host debugger system setting of the System Reset Request bit</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SSACKERR</name>
<description>Sticky Stop Mode Acknowledge Error Reset</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Reset not caused by peripheral failure to acknowledge attempt to enter stop mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Reset caused by peripheral failure to acknowledge attempt to enter stop mode</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>GPIOA</name>
<description>General Purpose Input/Output</description>
<groupName>GPIO</groupName>
<prependToName>GPIOA_</prependToName>
<baseAddress>0x400FF000</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x18</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTA</name>
<value>59</value>
</interrupt>
<registers>
<register>
<name>PDOR</name>
<description>Port Data Output Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDO0</name>
<description>Port Data Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO1</name>
<description>Port Data Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO2</name>
<description>Port Data Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO3</name>
<description>Port Data Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO4</name>
<description>Port Data Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO5</name>
<description>Port Data Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO6</name>
<description>Port Data Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO7</name>
<description>Port Data Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO8</name>
<description>Port Data Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO9</name>
<description>Port Data Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO10</name>
<description>Port Data Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO11</name>
<description>Port Data Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO12</name>
<description>Port Data Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO13</name>
<description>Port Data Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO14</name>
<description>Port Data Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO15</name>
<description>Port Data Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO16</name>
<description>Port Data Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO17</name>
<description>Port Data Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO18</name>
<description>Port Data Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO19</name>
<description>Port Data Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO20</name>
<description>Port Data Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO21</name>
<description>Port Data Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO22</name>
<description>Port Data Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO23</name>
<description>Port Data Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO24</name>
<description>Port Data Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO25</name>
<description>Port Data Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO26</name>
<description>Port Data Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO27</name>
<description>Port Data Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO28</name>
<description>Port Data Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO29</name>
<description>Port Data Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO30</name>
<description>Port Data Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO31</name>
<description>Port Data Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PSOR</name>
<description>Port Set Output Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTSO0</name>
<description>Port Set Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO1</name>
<description>Port Set Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO2</name>
<description>Port Set Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO3</name>
<description>Port Set Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO4</name>
<description>Port Set Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO5</name>
<description>Port Set Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO6</name>
<description>Port Set Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO7</name>
<description>Port Set Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO8</name>
<description>Port Set Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO9</name>
<description>Port Set Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO10</name>
<description>Port Set Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO11</name>
<description>Port Set Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO12</name>
<description>Port Set Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO13</name>
<description>Port Set Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO14</name>
<description>Port Set Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO15</name>
<description>Port Set Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO16</name>
<description>Port Set Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO17</name>
<description>Port Set Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO18</name>
<description>Port Set Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO19</name>
<description>Port Set Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO20</name>
<description>Port Set Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO21</name>
<description>Port Set Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO22</name>
<description>Port Set Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO23</name>
<description>Port Set Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO24</name>
<description>Port Set Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO25</name>
<description>Port Set Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO26</name>
<description>Port Set Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO27</name>
<description>Port Set Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO28</name>
<description>Port Set Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO29</name>
<description>Port Set Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO30</name>
<description>Port Set Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO31</name>
<description>Port Set Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCOR</name>
<description>Port Clear Output Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTCO0</name>
<description>Port Clear Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO1</name>
<description>Port Clear Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO2</name>
<description>Port Clear Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO3</name>
<description>Port Clear Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO4</name>
<description>Port Clear Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO5</name>
<description>Port Clear Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO6</name>
<description>Port Clear Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO7</name>
<description>Port Clear Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO8</name>
<description>Port Clear Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO9</name>
<description>Port Clear Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO10</name>
<description>Port Clear Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO11</name>
<description>Port Clear Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO12</name>
<description>Port Clear Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO13</name>
<description>Port Clear Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO14</name>
<description>Port Clear Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO15</name>
<description>Port Clear Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO16</name>
<description>Port Clear Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO17</name>
<description>Port Clear Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO18</name>
<description>Port Clear Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO19</name>
<description>Port Clear Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO20</name>
<description>Port Clear Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO21</name>
<description>Port Clear Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO22</name>
<description>Port Clear Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO23</name>
<description>Port Clear Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO24</name>
<description>Port Clear Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO25</name>
<description>Port Clear Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO26</name>
<description>Port Clear Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO27</name>
<description>Port Clear Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO28</name>
<description>Port Clear Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO29</name>
<description>Port Clear Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO30</name>
<description>Port Clear Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO31</name>
<description>Port Clear Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PTOR</name>
<description>Port Toggle Output Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTTO0</name>
<description>Port Toggle Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO1</name>
<description>Port Toggle Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO2</name>
<description>Port Toggle Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO3</name>
<description>Port Toggle Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO4</name>
<description>Port Toggle Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO5</name>
<description>Port Toggle Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO6</name>
<description>Port Toggle Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO7</name>
<description>Port Toggle Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO8</name>
<description>Port Toggle Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO9</name>
<description>Port Toggle Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO10</name>
<description>Port Toggle Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO11</name>
<description>Port Toggle Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO12</name>
<description>Port Toggle Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO13</name>
<description>Port Toggle Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO14</name>
<description>Port Toggle Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO15</name>
<description>Port Toggle Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO16</name>
<description>Port Toggle Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO17</name>
<description>Port Toggle Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO18</name>
<description>Port Toggle Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO19</name>
<description>Port Toggle Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO20</name>
<description>Port Toggle Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO21</name>
<description>Port Toggle Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO22</name>
<description>Port Toggle Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO23</name>
<description>Port Toggle Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO24</name>
<description>Port Toggle Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO25</name>
<description>Port Toggle Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO26</name>
<description>Port Toggle Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO27</name>
<description>Port Toggle Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO28</name>
<description>Port Toggle Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO29</name>
<description>Port Toggle Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO30</name>
<description>Port Toggle Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO31</name>
<description>Port Toggle Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDIR</name>
<description>Port Data Input Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDI0</name>
<description>Port Data Input</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI1</name>
<description>Port Data Input</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI2</name>
<description>Port Data Input</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI3</name>
<description>Port Data Input</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI4</name>
<description>Port Data Input</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI5</name>
<description>Port Data Input</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI6</name>
<description>Port Data Input</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI7</name>
<description>Port Data Input</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI8</name>
<description>Port Data Input</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI9</name>
<description>Port Data Input</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI10</name>
<description>Port Data Input</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI11</name>
<description>Port Data Input</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI12</name>
<description>Port Data Input</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI13</name>
<description>Port Data Input</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI14</name>
<description>Port Data Input</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI15</name>
<description>Port Data Input</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI16</name>
<description>Port Data Input</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI17</name>
<description>Port Data Input</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI18</name>
<description>Port Data Input</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI19</name>
<description>Port Data Input</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI20</name>
<description>Port Data Input</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI21</name>
<description>Port Data Input</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI22</name>
<description>Port Data Input</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI23</name>
<description>Port Data Input</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI24</name>
<description>Port Data Input</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI25</name>
<description>Port Data Input</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI26</name>
<description>Port Data Input</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI27</name>
<description>Port Data Input</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI28</name>
<description>Port Data Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI29</name>
<description>Port Data Input</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI30</name>
<description>Port Data Input</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI31</name>
<description>Port Data Input</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDDR</name>
<description>Port Data Direction Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDD0</name>
<description>Port Data Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD1</name>
<description>Port Data Direction</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD2</name>
<description>Port Data Direction</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD3</name>
<description>Port Data Direction</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD4</name>
<description>Port Data Direction</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD5</name>
<description>Port Data Direction</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD6</name>
<description>Port Data Direction</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD7</name>
<description>Port Data Direction</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD8</name>
<description>Port Data Direction</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD9</name>
<description>Port Data Direction</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD10</name>
<description>Port Data Direction</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD11</name>
<description>Port Data Direction</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD12</name>
<description>Port Data Direction</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD13</name>
<description>Port Data Direction</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD14</name>
<description>Port Data Direction</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD15</name>
<description>Port Data Direction</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD16</name>
<description>Port Data Direction</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD17</name>
<description>Port Data Direction</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD18</name>
<description>Port Data Direction</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD19</name>
<description>Port Data Direction</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD20</name>
<description>Port Data Direction</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD21</name>
<description>Port Data Direction</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD22</name>
<description>Port Data Direction</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD23</name>
<description>Port Data Direction</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD24</name>
<description>Port Data Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD25</name>
<description>Port Data Direction</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD26</name>
<description>Port Data Direction</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD27</name>
<description>Port Data Direction</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD28</name>
<description>Port Data Direction</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD29</name>
<description>Port Data Direction</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD30</name>
<description>Port Data Direction</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD31</name>
<description>Port Data Direction</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>GPIOB</name>
<description>General Purpose Input/Output</description>
<groupName>GPIO</groupName>
<prependToName>GPIOB_</prependToName>
<baseAddress>0x400FF040</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x18</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTB</name>
<value>60</value>
</interrupt>
<registers>
<register>
<name>PDOR</name>
<description>Port Data Output Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDO0</name>
<description>Port Data Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO1</name>
<description>Port Data Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO2</name>
<description>Port Data Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO3</name>
<description>Port Data Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO4</name>
<description>Port Data Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO5</name>
<description>Port Data Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO6</name>
<description>Port Data Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO7</name>
<description>Port Data Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO8</name>
<description>Port Data Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO9</name>
<description>Port Data Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO10</name>
<description>Port Data Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO11</name>
<description>Port Data Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO12</name>
<description>Port Data Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO13</name>
<description>Port Data Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO14</name>
<description>Port Data Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO15</name>
<description>Port Data Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO16</name>
<description>Port Data Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO17</name>
<description>Port Data Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO18</name>
<description>Port Data Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO19</name>
<description>Port Data Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO20</name>
<description>Port Data Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO21</name>
<description>Port Data Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO22</name>
<description>Port Data Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO23</name>
<description>Port Data Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO24</name>
<description>Port Data Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO25</name>
<description>Port Data Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO26</name>
<description>Port Data Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO27</name>
<description>Port Data Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO28</name>
<description>Port Data Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO29</name>
<description>Port Data Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO30</name>
<description>Port Data Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO31</name>
<description>Port Data Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PSOR</name>
<description>Port Set Output Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTSO0</name>
<description>Port Set Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO1</name>
<description>Port Set Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO2</name>
<description>Port Set Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO3</name>
<description>Port Set Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO4</name>
<description>Port Set Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO5</name>
<description>Port Set Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO6</name>
<description>Port Set Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO7</name>
<description>Port Set Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO8</name>
<description>Port Set Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO9</name>
<description>Port Set Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO10</name>
<description>Port Set Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO11</name>
<description>Port Set Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO12</name>
<description>Port Set Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO13</name>
<description>Port Set Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO14</name>
<description>Port Set Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO15</name>
<description>Port Set Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO16</name>
<description>Port Set Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO17</name>
<description>Port Set Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO18</name>
<description>Port Set Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO19</name>
<description>Port Set Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO20</name>
<description>Port Set Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO21</name>
<description>Port Set Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO22</name>
<description>Port Set Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO23</name>
<description>Port Set Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO24</name>
<description>Port Set Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO25</name>
<description>Port Set Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO26</name>
<description>Port Set Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO27</name>
<description>Port Set Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO28</name>
<description>Port Set Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO29</name>
<description>Port Set Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO30</name>
<description>Port Set Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO31</name>
<description>Port Set Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCOR</name>
<description>Port Clear Output Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTCO0</name>
<description>Port Clear Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO1</name>
<description>Port Clear Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO2</name>
<description>Port Clear Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO3</name>
<description>Port Clear Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO4</name>
<description>Port Clear Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO5</name>
<description>Port Clear Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO6</name>
<description>Port Clear Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO7</name>
<description>Port Clear Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO8</name>
<description>Port Clear Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO9</name>
<description>Port Clear Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO10</name>
<description>Port Clear Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO11</name>
<description>Port Clear Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO12</name>
<description>Port Clear Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO13</name>
<description>Port Clear Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO14</name>
<description>Port Clear Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO15</name>
<description>Port Clear Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO16</name>
<description>Port Clear Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO17</name>
<description>Port Clear Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO18</name>
<description>Port Clear Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO19</name>
<description>Port Clear Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO20</name>
<description>Port Clear Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO21</name>
<description>Port Clear Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO22</name>
<description>Port Clear Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO23</name>
<description>Port Clear Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO24</name>
<description>Port Clear Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO25</name>
<description>Port Clear Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO26</name>
<description>Port Clear Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO27</name>
<description>Port Clear Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO28</name>
<description>Port Clear Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO29</name>
<description>Port Clear Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO30</name>
<description>Port Clear Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO31</name>
<description>Port Clear Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PTOR</name>
<description>Port Toggle Output Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTTO0</name>
<description>Port Toggle Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO1</name>
<description>Port Toggle Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO2</name>
<description>Port Toggle Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO3</name>
<description>Port Toggle Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO4</name>
<description>Port Toggle Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO5</name>
<description>Port Toggle Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO6</name>
<description>Port Toggle Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO7</name>
<description>Port Toggle Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO8</name>
<description>Port Toggle Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO9</name>
<description>Port Toggle Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO10</name>
<description>Port Toggle Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO11</name>
<description>Port Toggle Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO12</name>
<description>Port Toggle Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO13</name>
<description>Port Toggle Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO14</name>
<description>Port Toggle Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO15</name>
<description>Port Toggle Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO16</name>
<description>Port Toggle Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO17</name>
<description>Port Toggle Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO18</name>
<description>Port Toggle Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO19</name>
<description>Port Toggle Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO20</name>
<description>Port Toggle Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO21</name>
<description>Port Toggle Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO22</name>
<description>Port Toggle Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO23</name>
<description>Port Toggle Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO24</name>
<description>Port Toggle Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO25</name>
<description>Port Toggle Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO26</name>
<description>Port Toggle Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO27</name>
<description>Port Toggle Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO28</name>
<description>Port Toggle Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO29</name>
<description>Port Toggle Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO30</name>
<description>Port Toggle Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO31</name>
<description>Port Toggle Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDIR</name>
<description>Port Data Input Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDI0</name>
<description>Port Data Input</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI1</name>
<description>Port Data Input</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI2</name>
<description>Port Data Input</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI3</name>
<description>Port Data Input</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI4</name>
<description>Port Data Input</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI5</name>
<description>Port Data Input</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI6</name>
<description>Port Data Input</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI7</name>
<description>Port Data Input</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI8</name>
<description>Port Data Input</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI9</name>
<description>Port Data Input</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI10</name>
<description>Port Data Input</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI11</name>
<description>Port Data Input</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI12</name>
<description>Port Data Input</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI13</name>
<description>Port Data Input</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI14</name>
<description>Port Data Input</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI15</name>
<description>Port Data Input</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI16</name>
<description>Port Data Input</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI17</name>
<description>Port Data Input</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI18</name>
<description>Port Data Input</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI19</name>
<description>Port Data Input</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI20</name>
<description>Port Data Input</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI21</name>
<description>Port Data Input</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI22</name>
<description>Port Data Input</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI23</name>
<description>Port Data Input</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI24</name>
<description>Port Data Input</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI25</name>
<description>Port Data Input</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI26</name>
<description>Port Data Input</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI27</name>
<description>Port Data Input</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI28</name>
<description>Port Data Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI29</name>
<description>Port Data Input</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI30</name>
<description>Port Data Input</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI31</name>
<description>Port Data Input</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDDR</name>
<description>Port Data Direction Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDD0</name>
<description>Port Data Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD1</name>
<description>Port Data Direction</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD2</name>
<description>Port Data Direction</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD3</name>
<description>Port Data Direction</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD4</name>
<description>Port Data Direction</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD5</name>
<description>Port Data Direction</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD6</name>
<description>Port Data Direction</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD7</name>
<description>Port Data Direction</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD8</name>
<description>Port Data Direction</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD9</name>
<description>Port Data Direction</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD10</name>
<description>Port Data Direction</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD11</name>
<description>Port Data Direction</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD12</name>
<description>Port Data Direction</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD13</name>
<description>Port Data Direction</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD14</name>
<description>Port Data Direction</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD15</name>
<description>Port Data Direction</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD16</name>
<description>Port Data Direction</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD17</name>
<description>Port Data Direction</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD18</name>
<description>Port Data Direction</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD19</name>
<description>Port Data Direction</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD20</name>
<description>Port Data Direction</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD21</name>
<description>Port Data Direction</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD22</name>
<description>Port Data Direction</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD23</name>
<description>Port Data Direction</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD24</name>
<description>Port Data Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD25</name>
<description>Port Data Direction</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD26</name>
<description>Port Data Direction</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD27</name>
<description>Port Data Direction</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD28</name>
<description>Port Data Direction</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD29</name>
<description>Port Data Direction</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD30</name>
<description>Port Data Direction</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD31</name>
<description>Port Data Direction</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>GPIOC</name>
<description>General Purpose Input/Output</description>
<groupName>GPIO</groupName>
<prependToName>GPIOC_</prependToName>
<baseAddress>0x400FF080</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x18</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTC</name>
<value>61</value>
</interrupt>
<registers>
<register>
<name>PDOR</name>
<description>Port Data Output Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDO0</name>
<description>Port Data Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO1</name>
<description>Port Data Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO2</name>
<description>Port Data Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO3</name>
<description>Port Data Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO4</name>
<description>Port Data Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO5</name>
<description>Port Data Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO6</name>
<description>Port Data Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO7</name>
<description>Port Data Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO8</name>
<description>Port Data Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO9</name>
<description>Port Data Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO10</name>
<description>Port Data Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO11</name>
<description>Port Data Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO12</name>
<description>Port Data Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO13</name>
<description>Port Data Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO14</name>
<description>Port Data Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO15</name>
<description>Port Data Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO16</name>
<description>Port Data Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO17</name>
<description>Port Data Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO18</name>
<description>Port Data Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO19</name>
<description>Port Data Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO20</name>
<description>Port Data Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO21</name>
<description>Port Data Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO22</name>
<description>Port Data Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO23</name>
<description>Port Data Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO24</name>
<description>Port Data Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO25</name>
<description>Port Data Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO26</name>
<description>Port Data Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO27</name>
<description>Port Data Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO28</name>
<description>Port Data Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO29</name>
<description>Port Data Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO30</name>
<description>Port Data Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO31</name>
<description>Port Data Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PSOR</name>
<description>Port Set Output Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTSO0</name>
<description>Port Set Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO1</name>
<description>Port Set Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO2</name>
<description>Port Set Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO3</name>
<description>Port Set Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO4</name>
<description>Port Set Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO5</name>
<description>Port Set Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO6</name>
<description>Port Set Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO7</name>
<description>Port Set Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO8</name>
<description>Port Set Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO9</name>
<description>Port Set Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO10</name>
<description>Port Set Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO11</name>
<description>Port Set Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO12</name>
<description>Port Set Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO13</name>
<description>Port Set Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO14</name>
<description>Port Set Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO15</name>
<description>Port Set Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO16</name>
<description>Port Set Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO17</name>
<description>Port Set Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO18</name>
<description>Port Set Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO19</name>
<description>Port Set Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO20</name>
<description>Port Set Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO21</name>
<description>Port Set Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO22</name>
<description>Port Set Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO23</name>
<description>Port Set Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO24</name>
<description>Port Set Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO25</name>
<description>Port Set Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO26</name>
<description>Port Set Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO27</name>
<description>Port Set Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO28</name>
<description>Port Set Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO29</name>
<description>Port Set Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO30</name>
<description>Port Set Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO31</name>
<description>Port Set Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCOR</name>
<description>Port Clear Output Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTCO0</name>
<description>Port Clear Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO1</name>
<description>Port Clear Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO2</name>
<description>Port Clear Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO3</name>
<description>Port Clear Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO4</name>
<description>Port Clear Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO5</name>
<description>Port Clear Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO6</name>
<description>Port Clear Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO7</name>
<description>Port Clear Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO8</name>
<description>Port Clear Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO9</name>
<description>Port Clear Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO10</name>
<description>Port Clear Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO11</name>
<description>Port Clear Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO12</name>
<description>Port Clear Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO13</name>
<description>Port Clear Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO14</name>
<description>Port Clear Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO15</name>
<description>Port Clear Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO16</name>
<description>Port Clear Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO17</name>
<description>Port Clear Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO18</name>
<description>Port Clear Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO19</name>
<description>Port Clear Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO20</name>
<description>Port Clear Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO21</name>
<description>Port Clear Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO22</name>
<description>Port Clear Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO23</name>
<description>Port Clear Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO24</name>
<description>Port Clear Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO25</name>
<description>Port Clear Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO26</name>
<description>Port Clear Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO27</name>
<description>Port Clear Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO28</name>
<description>Port Clear Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO29</name>
<description>Port Clear Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO30</name>
<description>Port Clear Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO31</name>
<description>Port Clear Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PTOR</name>
<description>Port Toggle Output Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTTO0</name>
<description>Port Toggle Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO1</name>
<description>Port Toggle Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO2</name>
<description>Port Toggle Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO3</name>
<description>Port Toggle Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO4</name>
<description>Port Toggle Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO5</name>
<description>Port Toggle Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO6</name>
<description>Port Toggle Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO7</name>
<description>Port Toggle Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO8</name>
<description>Port Toggle Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO9</name>
<description>Port Toggle Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO10</name>
<description>Port Toggle Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO11</name>
<description>Port Toggle Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO12</name>
<description>Port Toggle Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO13</name>
<description>Port Toggle Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO14</name>
<description>Port Toggle Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO15</name>
<description>Port Toggle Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO16</name>
<description>Port Toggle Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO17</name>
<description>Port Toggle Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO18</name>
<description>Port Toggle Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO19</name>
<description>Port Toggle Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO20</name>
<description>Port Toggle Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO21</name>
<description>Port Toggle Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO22</name>
<description>Port Toggle Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO23</name>
<description>Port Toggle Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO24</name>
<description>Port Toggle Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO25</name>
<description>Port Toggle Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO26</name>
<description>Port Toggle Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO27</name>
<description>Port Toggle Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO28</name>
<description>Port Toggle Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO29</name>
<description>Port Toggle Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO30</name>
<description>Port Toggle Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO31</name>
<description>Port Toggle Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDIR</name>
<description>Port Data Input Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDI0</name>
<description>Port Data Input</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI1</name>
<description>Port Data Input</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI2</name>
<description>Port Data Input</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI3</name>
<description>Port Data Input</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI4</name>
<description>Port Data Input</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI5</name>
<description>Port Data Input</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI6</name>
<description>Port Data Input</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI7</name>
<description>Port Data Input</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI8</name>
<description>Port Data Input</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI9</name>
<description>Port Data Input</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI10</name>
<description>Port Data Input</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI11</name>
<description>Port Data Input</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI12</name>
<description>Port Data Input</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI13</name>
<description>Port Data Input</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI14</name>
<description>Port Data Input</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI15</name>
<description>Port Data Input</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI16</name>
<description>Port Data Input</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI17</name>
<description>Port Data Input</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI18</name>
<description>Port Data Input</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI19</name>
<description>Port Data Input</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI20</name>
<description>Port Data Input</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI21</name>
<description>Port Data Input</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI22</name>
<description>Port Data Input</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI23</name>
<description>Port Data Input</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI24</name>
<description>Port Data Input</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI25</name>
<description>Port Data Input</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI26</name>
<description>Port Data Input</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI27</name>
<description>Port Data Input</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI28</name>
<description>Port Data Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI29</name>
<description>Port Data Input</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI30</name>
<description>Port Data Input</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI31</name>
<description>Port Data Input</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDDR</name>
<description>Port Data Direction Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDD0</name>
<description>Port Data Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD1</name>
<description>Port Data Direction</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD2</name>
<description>Port Data Direction</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD3</name>
<description>Port Data Direction</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD4</name>
<description>Port Data Direction</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD5</name>
<description>Port Data Direction</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD6</name>
<description>Port Data Direction</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD7</name>
<description>Port Data Direction</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD8</name>
<description>Port Data Direction</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD9</name>
<description>Port Data Direction</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD10</name>
<description>Port Data Direction</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD11</name>
<description>Port Data Direction</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD12</name>
<description>Port Data Direction</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD13</name>
<description>Port Data Direction</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD14</name>
<description>Port Data Direction</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD15</name>
<description>Port Data Direction</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD16</name>
<description>Port Data Direction</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD17</name>
<description>Port Data Direction</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD18</name>
<description>Port Data Direction</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD19</name>
<description>Port Data Direction</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD20</name>
<description>Port Data Direction</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD21</name>
<description>Port Data Direction</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD22</name>
<description>Port Data Direction</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD23</name>
<description>Port Data Direction</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD24</name>
<description>Port Data Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD25</name>
<description>Port Data Direction</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD26</name>
<description>Port Data Direction</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD27</name>
<description>Port Data Direction</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD28</name>
<description>Port Data Direction</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD29</name>
<description>Port Data Direction</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD30</name>
<description>Port Data Direction</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD31</name>
<description>Port Data Direction</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>GPIOD</name>
<description>General Purpose Input/Output</description>
<groupName>GPIO</groupName>
<prependToName>GPIOD_</prependToName>
<baseAddress>0x400FF0C0</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x18</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTD</name>
<value>62</value>
</interrupt>
<registers>
<register>
<name>PDOR</name>
<description>Port Data Output Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDO0</name>
<description>Port Data Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO1</name>
<description>Port Data Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO2</name>
<description>Port Data Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO3</name>
<description>Port Data Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO4</name>
<description>Port Data Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO5</name>
<description>Port Data Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO6</name>
<description>Port Data Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO7</name>
<description>Port Data Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO8</name>
<description>Port Data Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO9</name>
<description>Port Data Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO10</name>
<description>Port Data Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO11</name>
<description>Port Data Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO12</name>
<description>Port Data Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO13</name>
<description>Port Data Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO14</name>
<description>Port Data Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO15</name>
<description>Port Data Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO16</name>
<description>Port Data Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO17</name>
<description>Port Data Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO18</name>
<description>Port Data Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO19</name>
<description>Port Data Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO20</name>
<description>Port Data Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO21</name>
<description>Port Data Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO22</name>
<description>Port Data Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO23</name>
<description>Port Data Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO24</name>
<description>Port Data Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO25</name>
<description>Port Data Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO26</name>
<description>Port Data Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO27</name>
<description>Port Data Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO28</name>
<description>Port Data Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO29</name>
<description>Port Data Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO30</name>
<description>Port Data Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO31</name>
<description>Port Data Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PSOR</name>
<description>Port Set Output Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTSO0</name>
<description>Port Set Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO1</name>
<description>Port Set Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO2</name>
<description>Port Set Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO3</name>
<description>Port Set Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO4</name>
<description>Port Set Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO5</name>
<description>Port Set Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO6</name>
<description>Port Set Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO7</name>
<description>Port Set Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO8</name>
<description>Port Set Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO9</name>
<description>Port Set Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO10</name>
<description>Port Set Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO11</name>
<description>Port Set Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO12</name>
<description>Port Set Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO13</name>
<description>Port Set Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO14</name>
<description>Port Set Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO15</name>
<description>Port Set Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO16</name>
<description>Port Set Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO17</name>
<description>Port Set Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO18</name>
<description>Port Set Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO19</name>
<description>Port Set Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO20</name>
<description>Port Set Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO21</name>
<description>Port Set Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO22</name>
<description>Port Set Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO23</name>
<description>Port Set Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO24</name>
<description>Port Set Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO25</name>
<description>Port Set Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO26</name>
<description>Port Set Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO27</name>
<description>Port Set Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO28</name>
<description>Port Set Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO29</name>
<description>Port Set Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO30</name>
<description>Port Set Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO31</name>
<description>Port Set Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCOR</name>
<description>Port Clear Output Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTCO0</name>
<description>Port Clear Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO1</name>
<description>Port Clear Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO2</name>
<description>Port Clear Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO3</name>
<description>Port Clear Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO4</name>
<description>Port Clear Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO5</name>
<description>Port Clear Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO6</name>
<description>Port Clear Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO7</name>
<description>Port Clear Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO8</name>
<description>Port Clear Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO9</name>
<description>Port Clear Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO10</name>
<description>Port Clear Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO11</name>
<description>Port Clear Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO12</name>
<description>Port Clear Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO13</name>
<description>Port Clear Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO14</name>
<description>Port Clear Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO15</name>
<description>Port Clear Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO16</name>
<description>Port Clear Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO17</name>
<description>Port Clear Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO18</name>
<description>Port Clear Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO19</name>
<description>Port Clear Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO20</name>
<description>Port Clear Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO21</name>
<description>Port Clear Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO22</name>
<description>Port Clear Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO23</name>
<description>Port Clear Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO24</name>
<description>Port Clear Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO25</name>
<description>Port Clear Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO26</name>
<description>Port Clear Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO27</name>
<description>Port Clear Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO28</name>
<description>Port Clear Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO29</name>
<description>Port Clear Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO30</name>
<description>Port Clear Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO31</name>
<description>Port Clear Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PTOR</name>
<description>Port Toggle Output Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTTO0</name>
<description>Port Toggle Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO1</name>
<description>Port Toggle Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO2</name>
<description>Port Toggle Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO3</name>
<description>Port Toggle Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO4</name>
<description>Port Toggle Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO5</name>
<description>Port Toggle Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO6</name>
<description>Port Toggle Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO7</name>
<description>Port Toggle Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO8</name>
<description>Port Toggle Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO9</name>
<description>Port Toggle Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO10</name>
<description>Port Toggle Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO11</name>
<description>Port Toggle Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO12</name>
<description>Port Toggle Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO13</name>
<description>Port Toggle Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO14</name>
<description>Port Toggle Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO15</name>
<description>Port Toggle Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO16</name>
<description>Port Toggle Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO17</name>
<description>Port Toggle Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO18</name>
<description>Port Toggle Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO19</name>
<description>Port Toggle Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO20</name>
<description>Port Toggle Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO21</name>
<description>Port Toggle Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO22</name>
<description>Port Toggle Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO23</name>
<description>Port Toggle Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO24</name>
<description>Port Toggle Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO25</name>
<description>Port Toggle Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO26</name>
<description>Port Toggle Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO27</name>
<description>Port Toggle Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO28</name>
<description>Port Toggle Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO29</name>
<description>Port Toggle Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO30</name>
<description>Port Toggle Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO31</name>
<description>Port Toggle Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDIR</name>
<description>Port Data Input Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDI0</name>
<description>Port Data Input</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI1</name>
<description>Port Data Input</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI2</name>
<description>Port Data Input</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI3</name>
<description>Port Data Input</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI4</name>
<description>Port Data Input</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI5</name>
<description>Port Data Input</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI6</name>
<description>Port Data Input</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI7</name>
<description>Port Data Input</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI8</name>
<description>Port Data Input</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI9</name>
<description>Port Data Input</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI10</name>
<description>Port Data Input</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI11</name>
<description>Port Data Input</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI12</name>
<description>Port Data Input</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI13</name>
<description>Port Data Input</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI14</name>
<description>Port Data Input</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI15</name>
<description>Port Data Input</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI16</name>
<description>Port Data Input</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI17</name>
<description>Port Data Input</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI18</name>
<description>Port Data Input</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI19</name>
<description>Port Data Input</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI20</name>
<description>Port Data Input</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI21</name>
<description>Port Data Input</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI22</name>
<description>Port Data Input</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI23</name>
<description>Port Data Input</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI24</name>
<description>Port Data Input</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI25</name>
<description>Port Data Input</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI26</name>
<description>Port Data Input</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI27</name>
<description>Port Data Input</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI28</name>
<description>Port Data Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI29</name>
<description>Port Data Input</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI30</name>
<description>Port Data Input</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI31</name>
<description>Port Data Input</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDDR</name>
<description>Port Data Direction Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDD0</name>
<description>Port Data Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD1</name>
<description>Port Data Direction</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD2</name>
<description>Port Data Direction</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD3</name>
<description>Port Data Direction</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD4</name>
<description>Port Data Direction</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD5</name>
<description>Port Data Direction</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD6</name>
<description>Port Data Direction</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD7</name>
<description>Port Data Direction</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD8</name>
<description>Port Data Direction</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD9</name>
<description>Port Data Direction</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD10</name>
<description>Port Data Direction</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD11</name>
<description>Port Data Direction</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD12</name>
<description>Port Data Direction</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD13</name>
<description>Port Data Direction</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD14</name>
<description>Port Data Direction</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD15</name>
<description>Port Data Direction</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD16</name>
<description>Port Data Direction</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD17</name>
<description>Port Data Direction</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD18</name>
<description>Port Data Direction</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD19</name>
<description>Port Data Direction</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD20</name>
<description>Port Data Direction</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD21</name>
<description>Port Data Direction</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD22</name>
<description>Port Data Direction</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD23</name>
<description>Port Data Direction</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD24</name>
<description>Port Data Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD25</name>
<description>Port Data Direction</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD26</name>
<description>Port Data Direction</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD27</name>
<description>Port Data Direction</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD28</name>
<description>Port Data Direction</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD29</name>
<description>Port Data Direction</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD30</name>
<description>Port Data Direction</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD31</name>
<description>Port Data Direction</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>GPIOE</name>
<description>General Purpose Input/Output</description>
<groupName>GPIO</groupName>
<prependToName>GPIOE_</prependToName>
<baseAddress>0x400FF100</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x18</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>PORTE</name>
<value>63</value>
</interrupt>
<registers>
<register>
<name>PDOR</name>
<description>Port Data Output Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDO0</name>
<description>Port Data Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO1</name>
<description>Port Data Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO2</name>
<description>Port Data Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO3</name>
<description>Port Data Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO4</name>
<description>Port Data Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO5</name>
<description>Port Data Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO6</name>
<description>Port Data Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO7</name>
<description>Port Data Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO8</name>
<description>Port Data Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO9</name>
<description>Port Data Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO10</name>
<description>Port Data Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO11</name>
<description>Port Data Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO12</name>
<description>Port Data Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO13</name>
<description>Port Data Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO14</name>
<description>Port Data Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO15</name>
<description>Port Data Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO16</name>
<description>Port Data Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO17</name>
<description>Port Data Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO18</name>
<description>Port Data Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO19</name>
<description>Port Data Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO20</name>
<description>Port Data Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO21</name>
<description>Port Data Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO22</name>
<description>Port Data Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO23</name>
<description>Port Data Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO24</name>
<description>Port Data Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO25</name>
<description>Port Data Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO26</name>
<description>Port Data Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO27</name>
<description>Port Data Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO28</name>
<description>Port Data Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO29</name>
<description>Port Data Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO30</name>
<description>Port Data Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDO31</name>
<description>Port Data Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Logic level 0 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Logic level 1 is driven on pin, provided pin is configured for general-purpose output.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PSOR</name>
<description>Port Set Output Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTSO0</name>
<description>Port Set Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO1</name>
<description>Port Set Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO2</name>
<description>Port Set Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO3</name>
<description>Port Set Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO4</name>
<description>Port Set Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO5</name>
<description>Port Set Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO6</name>
<description>Port Set Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO7</name>
<description>Port Set Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO8</name>
<description>Port Set Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO9</name>
<description>Port Set Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO10</name>
<description>Port Set Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO11</name>
<description>Port Set Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO12</name>
<description>Port Set Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO13</name>
<description>Port Set Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO14</name>
<description>Port Set Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO15</name>
<description>Port Set Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO16</name>
<description>Port Set Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO17</name>
<description>Port Set Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO18</name>
<description>Port Set Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO19</name>
<description>Port Set Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO20</name>
<description>Port Set Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO21</name>
<description>Port Set Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO22</name>
<description>Port Set Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO23</name>
<description>Port Set Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO24</name>
<description>Port Set Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO25</name>
<description>Port Set Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO26</name>
<description>Port Set Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO27</name>
<description>Port Set Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO28</name>
<description>Port Set Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO29</name>
<description>Port Set Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO30</name>
<description>Port Set Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTSO31</name>
<description>Port Set Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PCOR</name>
<description>Port Clear Output Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTCO0</name>
<description>Port Clear Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO1</name>
<description>Port Clear Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO2</name>
<description>Port Clear Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO3</name>
<description>Port Clear Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO4</name>
<description>Port Clear Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO5</name>
<description>Port Clear Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO6</name>
<description>Port Clear Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO7</name>
<description>Port Clear Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO8</name>
<description>Port Clear Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO9</name>
<description>Port Clear Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO10</name>
<description>Port Clear Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO11</name>
<description>Port Clear Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO12</name>
<description>Port Clear Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO13</name>
<description>Port Clear Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO14</name>
<description>Port Clear Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO15</name>
<description>Port Clear Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO16</name>
<description>Port Clear Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO17</name>
<description>Port Clear Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO18</name>
<description>Port Clear Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO19</name>
<description>Port Clear Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO20</name>
<description>Port Clear Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO21</name>
<description>Port Clear Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO22</name>
<description>Port Clear Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO23</name>
<description>Port Clear Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO24</name>
<description>Port Clear Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO25</name>
<description>Port Clear Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO26</name>
<description>Port Clear Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO27</name>
<description>Port Clear Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO28</name>
<description>Port Clear Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO29</name>
<description>Port Clear Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO30</name>
<description>Port Clear Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTCO31</name>
<description>Port Clear Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is cleared to logic 0.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PTOR</name>
<description>Port Toggle Output Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>write-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PTTO0</name>
<description>Port Toggle Output</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO1</name>
<description>Port Toggle Output</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO2</name>
<description>Port Toggle Output</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO3</name>
<description>Port Toggle Output</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO4</name>
<description>Port Toggle Output</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO5</name>
<description>Port Toggle Output</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO6</name>
<description>Port Toggle Output</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO7</name>
<description>Port Toggle Output</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO8</name>
<description>Port Toggle Output</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO9</name>
<description>Port Toggle Output</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO10</name>
<description>Port Toggle Output</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO11</name>
<description>Port Toggle Output</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO12</name>
<description>Port Toggle Output</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO13</name>
<description>Port Toggle Output</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO14</name>
<description>Port Toggle Output</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO15</name>
<description>Port Toggle Output</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO16</name>
<description>Port Toggle Output</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO17</name>
<description>Port Toggle Output</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO18</name>
<description>Port Toggle Output</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO19</name>
<description>Port Toggle Output</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO20</name>
<description>Port Toggle Output</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO21</name>
<description>Port Toggle Output</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO22</name>
<description>Port Toggle Output</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO23</name>
<description>Port Toggle Output</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO24</name>
<description>Port Toggle Output</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO25</name>
<description>Port Toggle Output</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO26</name>
<description>Port Toggle Output</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO27</name>
<description>Port Toggle Output</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO28</name>
<description>Port Toggle Output</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO29</name>
<description>Port Toggle Output</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO30</name>
<description>Port Toggle Output</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PTTO31</name>
<description>Port Toggle Output</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Corresponding bit in PDORn does not change.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Corresponding bit in PDORn is set to the inverse of its existing logic state.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDIR</name>
<description>Port Data Input Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDI0</name>
<description>Port Data Input</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI1</name>
<description>Port Data Input</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI2</name>
<description>Port Data Input</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI3</name>
<description>Port Data Input</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI4</name>
<description>Port Data Input</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI5</name>
<description>Port Data Input</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI6</name>
<description>Port Data Input</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI7</name>
<description>Port Data Input</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI8</name>
<description>Port Data Input</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI9</name>
<description>Port Data Input</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI10</name>
<description>Port Data Input</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI11</name>
<description>Port Data Input</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI12</name>
<description>Port Data Input</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI13</name>
<description>Port Data Input</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI14</name>
<description>Port Data Input</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI15</name>
<description>Port Data Input</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI16</name>
<description>Port Data Input</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI17</name>
<description>Port Data Input</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI18</name>
<description>Port Data Input</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI19</name>
<description>Port Data Input</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI20</name>
<description>Port Data Input</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI21</name>
<description>Port Data Input</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI22</name>
<description>Port Data Input</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI23</name>
<description>Port Data Input</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI24</name>
<description>Port Data Input</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI25</name>
<description>Port Data Input</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI26</name>
<description>Port Data Input</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI27</name>
<description>Port Data Input</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI28</name>
<description>Port Data Input</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI29</name>
<description>Port Data Input</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI30</name>
<description>Port Data Input</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDI31</name>
<description>Port Data Input</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin logic level is logic 0, or is not configured for use by digital function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin logic level is logic 1.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PDDR</name>
<description>Port Data Direction Register</description>
<addressOffset>0x14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PDD0</name>
<description>Port Data Direction</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD1</name>
<description>Port Data Direction</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD2</name>
<description>Port Data Direction</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD3</name>
<description>Port Data Direction</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD4</name>
<description>Port Data Direction</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD5</name>
<description>Port Data Direction</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD6</name>
<description>Port Data Direction</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD7</name>
<description>Port Data Direction</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD8</name>
<description>Port Data Direction</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD9</name>
<description>Port Data Direction</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD10</name>
<description>Port Data Direction</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD11</name>
<description>Port Data Direction</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD12</name>
<description>Port Data Direction</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD13</name>
<description>Port Data Direction</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD14</name>
<description>Port Data Direction</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD15</name>
<description>Port Data Direction</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD16</name>
<description>Port Data Direction</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD17</name>
<description>Port Data Direction</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD18</name>
<description>Port Data Direction</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD19</name>
<description>Port Data Direction</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD20</name>
<description>Port Data Direction</description>
<bitOffset>20</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD21</name>
<description>Port Data Direction</description>
<bitOffset>21</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD22</name>
<description>Port Data Direction</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD23</name>
<description>Port Data Direction</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD24</name>
<description>Port Data Direction</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD25</name>
<description>Port Data Direction</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD26</name>
<description>Port Data Direction</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD27</name>
<description>Port Data Direction</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD28</name>
<description>Port Data Direction</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD29</name>
<description>Port Data Direction</description>
<bitOffset>29</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD30</name>
<description>Port Data Direction</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PDD31</name>
<description>Port Data Direction</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Pin is configured as general-purpose input, for the GPIO function.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Pin is configured as general-purpose output, for the GPIO function.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>SystemControl</name>
<description>System Control Block</description>
<prependToName>SCB_</prependToName>
<baseAddress>0xE000E000</baseAddress>
<addressBlock>
<offset>0x8</offset>
<size>0xF38</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>ACTLR</name>
<description>Auxiliary Control Register,</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>DISMCYCINT</name>
<description>Disables interruption of multi-cycle instructions.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DISDEFWBUF</name>
<description>Disables write buffer use during default memory map accesses.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
<field>
<name>DISFOLD</name>
<description>Disables folding of IT instructions.</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CPUID</name>
<description>CPUID Base Register</description>
<addressOffset>0xD00</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x410FC240</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>REVISION</name>
<description>Indicates patch release: 0x0 = Patch 0</description>
<bitOffset>0</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>PARTNO</name>
<description>Indicates part number</description>
<bitOffset>4</bitOffset>
<bitWidth>12</bitWidth>
<access>read-only</access>
</field>
<field>
<name>VARIANT</name>
<description>Indicates processor revision: 0x2 = Revision 2</description>
<bitOffset>20</bitOffset>
<bitWidth>4</bitWidth>
<access>read-only</access>
</field>
<field>
<name>IMPLEMENTER</name>
<description>Implementer code</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
</field>
</fields>
</register>
<register>
<name>ICSR</name>
<description>Interrupt Control and State Register</description>
<addressOffset>0xD04</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>VECTACTIVE</name>
<description>Active exception number</description>
<bitOffset>0</bitOffset>
<bitWidth>9</bitWidth>
<access>read-only</access>
</field>
<field>
<name>RETTOBASE</name>
<description>no description available</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>there are preempted active exceptions to execute</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>there are no active exceptions, or the currently-executing exception is the only active exception</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VECTPENDING</name>
<description>Exception number of the highest priority pending enabled exception</description>
<bitOffset>12</bitOffset>
<bitWidth>6</bitWidth>
<access>read-only</access>
</field>
<field>
<name>ISRPENDING</name>
<description>no description available</description>
<bitOffset>22</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
</field>
<field>
<name>ISRPREEMPT</name>
<description>no description available</description>
<bitOffset>23</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Will not service</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Will service a pending exception</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PENDSTCLR</name>
<description>no description available</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no effect</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>removes the pending state from the SysTick exception</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PENDSTSET</name>
<description>no description available</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>write: no effect; read: SysTick exception is not pending</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>write: changes SysTick exception state to pending; read: SysTick exception is pending</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PENDSVCLR</name>
<description>no description available</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no effect</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>removes the pending state from the PendSV exception</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PENDSVSET</name>
<description>no description available</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>write: no effect; read: PendSV exception is not pending</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>write: changes PendSV exception state to pending; read: PendSV exception is pending</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NMIPENDSET</name>
<description>no description available</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>write: no effect; read: NMI exception is not pending</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>write: changes NMI exception state to pending; read: NMI exception is pending</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>VTOR</name>
<description>Vector Table Offset Register</description>
<addressOffset>0xD08</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TBLOFF</name>
<description>Vector table base offset</description>
<bitOffset>7</bitOffset>
<bitWidth>25</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>AIRCR</name>
<description>Application Interrupt and Reset Control Register</description>
<addressOffset>0xD0C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xFA050000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>VECTRESET</name>
<description>no description available</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
</field>
<field>
<name>VECTCLRACTIVE</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
</field>
<field>
<name>SYSRESETREQ</name>
<description>no description available</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>write-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no system reset request</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>asserts a signal to the outer system that requests a reset</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PRIGROUP</name>
<description>Interrupt priority grouping field. This field determines the split of group priority from subpriority.</description>
<bitOffset>8</bitOffset>
<bitWidth>3</bitWidth>
<access>read-write</access>
</field>
<field>
<name>ENDIANNESS</name>
<description>no description available</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Little-endian</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Big-endian</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VECTKEY</name>
<description>Register key</description>
<bitOffset>16</bitOffset>
<bitWidth>16</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SCR</name>
<description>System Control Register</description>
<addressOffset>0xD10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SLEEPONEXIT</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>o not sleep when returning to Thread mode</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>enter sleep, or deep sleep, on return from an ISR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SLEEPDEEP</name>
<description>no description available</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>sleep</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>deep sleep</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SEVONPEND</name>
<description>no description available</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>only enabled interrupts or events can wakeup the processor, disabled interrupts are excluded</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>enabled events and all interrupts, including disabled interrupts, can wakeup the processor</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CCR</name>
<description>Configuration and Control Register</description>
<addressOffset>0xD14</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>NONBASETHRDENA</name>
<description>no description available</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>processor can enter Thread mode only when no exception is active</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>processor can enter Thread mode from any level under the control of an EXC_RETURN value</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USERSETMPEND</name>
<description>Enables unprivileged software access to the STIR</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>disable</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>enable</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UNALIGN_TRP</name>
<description>Enables unaligned access traps</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>do not trap unaligned halfword and word accesses</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>trap unaligned halfword and word accesses</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DIV_0_TRP</name>
<description>Enables faulting or halting when the processor executes an SDIV or UDIV instruction with a divisor of 0</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>do not trap divide by 0</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>trap divide by 0</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BFHFNMIGN</name>
<description>Enables handlers with priority -1 or -2 to ignore data BusFaults caused by load and store instructions.</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>data bus faults caused by load and store instructions cause a lock-up</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>handlers running at priority -1 and -2 ignore data bus faults caused by load and store instructions</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STKALIGN</name>
<description>Indicates stack alignment on exception entry</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>4-byte aligned</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>8-byte aligned</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>SHPR1</name>
<description>System Handler Priority Register 1</description>
<addressOffset>0xD18</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PRI_4</name>
<description>Priority of system handler 4, MemManage</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRI_5</name>
<description>Priority of system handler 5, BusFault</description>
<bitOffset>8</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRI_6</name>
<description>Priority of system handler 6, UsageFault</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SHPR2</name>
<description>System Handler Priority Register 2</description>
<addressOffset>0xD1C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PRI_11</name>
<description>Priority of system handler 11, SVCall</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SHPR3</name>
<description>System Handler Priority Register 3</description>
<addressOffset>0xD20</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>PRI_14</name>
<description>Priority of system handler 14, PendSV</description>
<bitOffset>16</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
<field>
<name>PRI_15</name>
<description>Priority of system handler 15, SysTick exception</description>
<bitOffset>24</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>SHCSR</name>
<description>System Handler Control and State Register</description>
<addressOffset>0xD24</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>MEMFAULTACT</name>
<description>no description available</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not active</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUSFAULTACT</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not active</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USGFAULTACT</name>
<description>no description available</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not active</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SVCALLACT</name>
<description>no description available</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not active</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MONITORACT</name>
<description>no description available</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not active</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PENDSVACT</name>
<description>no description available</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not active</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SYSTICKACT</name>
<description>no description available</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not active</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USGFAULTPENDED</name>
<description>no description available</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not pending</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is pending</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MEMFAULTPENDED</name>
<description>no description available</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not pending</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is pending</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUSFAULTPENDED</name>
<description>no description available</description>
<bitOffset>14</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not pending</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is pending</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>SVCALLPENDED</name>
<description>no description available</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>exception is not pending</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>exception is pending</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MEMFAULTENA</name>
<description>no description available</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>disable the exception</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>enable the exception</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BUSFAULTENA</name>
<description>no description available</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>disable the exception</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>enable the exception</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USGFAULTENA</name>
<description>no description available</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>disable the exception</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>enable the exception</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CFSR</name>
<description>Configurable Fault Status Registers</description>
<addressOffset>0xD28</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>IACCVIOL</name>
<description>no description available</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no instruction access violation fault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>the processor attempted an instruction fetch from a location that does not permit execution</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DACCVIOL</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no data access violation fault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>the processor attempted a load or store at a location that does not permit the operation</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MUNSTKERR</name>
<description>no description available</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no unstacking fault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>unstack for an exception return has caused one or more access violations</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MSTKERR</name>
<description>no description available</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no stacking fault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>stacking for an exception entry has caused one or more access violations</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MLSPERR</name>
<description>no description available</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No MemManage fault occurred during floating-point lazy state preservation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A MemManage fault occurred during floating-point lazy state preservation</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MMARVALID</name>
<description>no description available</description>
<bitOffset>7</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>value in MMAR is not a valid fault address</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MMAR holds a valid fault address</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IBUSERR</name>
<description>no description available</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no instruction bus error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>instruction bus error</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>PRECISERR</name>
<description>no description available</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no precise data bus error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>a data bus error has occurred, and the PC value stacked for the exception return points to the instruction that caused the fault</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>IMPRECISERR</name>
<description>no description available</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no imprecise data bus error</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>a data bus error has occurred, but the return address in the stack frame is not related to the instruction that caused the error</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UNSTKERR</name>
<description>no description available</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no unstacking fault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>unstack for an exception return has caused one or more BusFaults</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>STKERR</name>
<description>no description available</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no stacking fault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>stacking for an exception entry has caused one or more BusFaults</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LSPERR</name>
<description>no description available</description>
<bitOffset>13</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No bus fault occurred during floating-point lazy state preservation</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A bus fault occurred during floating-point lazy state preservation</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BFARVALID</name>
<description>no description available</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>value in BFAR is not a valid fault address</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>BFAR holds a valid fault address</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UNDEFINSTR</name>
<description>no description available</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no undefined instruction UsageFault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>the processor has attempted to execute an undefined instruction</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INVSTATE</name>
<description>no description available</description>
<bitOffset>17</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no invalid state UsageFault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>the processor has attempted to execute an instruction that makes illegal use of the EPSR</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>INVPC</name>
<description>no description available</description>
<bitOffset>18</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no invalid PC load UsageFault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>the processor has attempted an illegal load of EXC_RETURN to the PC</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOCP</name>
<description>no description available</description>
<bitOffset>19</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no UsageFault caused by attempting to access a coprocessor</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>the processor has attempted to access a coprocessor</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>UNALIGNED</name>
<description>no description available</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no unaligned access fault, or unaligned access trapping not enabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>the processor has made an unaligned memory access</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DIVBYZERO</name>
<description>no description available</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no divide by zero fault, or divide by zero trapping not enabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>the processor has executed an SDIV or UDIV instruction with a divisor of 0</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>HFSR</name>
<description>HardFault Status register</description>
<addressOffset>0xD2C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>VECTTBL</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no BusFault on vector table read</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>BusFault on vector table read</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FORCED</name>
<description>no description available</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>no forced HardFault</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>forced HardFault</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DEBUGEVT</name>
<description>no description available</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>DFSR</name>
<description>Debug Fault Status Register</description>
<addressOffset>0xD30</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>HALTED</name>
<description>no description available</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No active halt request debug event</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Halt request debug event active</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BKPT</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No current breakpoint debug event</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one current breakpoint debug event</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DWTTRAP</name>
<description>no description available</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No current debug events generated by the DWT</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>At least one current debug event generated by the DWT</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>VCATCH</name>
<description>no description available</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No Vector catch triggered</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Vector catch triggered</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>EXTERNAL</name>
<description>no description available</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No EDBGRQ debug event</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>EDBGRQ debug event</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>MMFAR</name>
<description>MemManage Address Register</description>
<addressOffset>0xD34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADDRESS</name>
<description>Address of MemManage fault location</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>BFAR</name>
<description>BusFault Address Register</description>
<addressOffset>0xD38</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ADDRESS</name>
<description>Address of the BusFault location</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>AFSR</name>
<description>Auxiliary Fault Status Register</description>
<addressOffset>0xD3C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>AUXFAULT</name>
<description>Latched version of the AUXFAULT inputs</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CPACR</name>
<description>Coprocessor Access Control Register</description>
<addressOffset>0xD88</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CP10</name>
<description>Access privileges for coprocessor 10.</description>
<bitOffset>20</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Access denied. Any attempted access generates a NOCP UsageFault</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Privileged access only. An unprivileged access generates a NOCP fault.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Reserved. The result of any access is UNPREDICTABLE.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Full access.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CP11</name>
<description>Access privileges for coprocessor 11.</description>
<bitOffset>22</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Access denied. Any attempted access generates a NOCP UsageFault</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Privileged access only. An unprivileged access generates a NOCP fault.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Reserved. The result of any access is UNPREDICTABLE.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Full access.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FPCCR</name>
<description>Floating-point Context Control Register</description>
<addressOffset>0xF34</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0xC0000000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>LSPACT</name>
<description>Lazy state preservation.</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Lazy state preservation is not active.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Lazy state preservation is active. floating-point stack frame has been allocated but saving state to it has been deferred.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>USER</name>
<description>Privilege level when the floating-point stack frame was allocated.</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Privilege level was not user when the floating-point stack frame was allocated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Privilege level was user when the floating-point stack frame was allocated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>THREAD</name>
<description>Mode when the floating-point stack frame was allocated.</description>
<bitOffset>3</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Mode was not Thread Mode when the floating-point stack frame was allocated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Mode was Thread Mode when the floating-point stack frame was allocated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>HFRDY</name>
<description>Permission to set the HardFault handler to the pending state when the floating-point stack frame was allocated.</description>
<bitOffset>4</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Priority did not permit setting the HardFault handler to the pending state when the floating-point stack frame was allocated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Priority permitted setting the HardFault handler to the pending state when the floating-point stack frame was allocated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MMRDY</name>
<description>Permission to set the MemManage handler to the pending state when the floating-point stack frame was allocated.</description>
<bitOffset>5</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>MemManage is disabled or priority did not permit setting the MemManage handler to the pending state when the floating-point stack frame was allocated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>MemManage is enabled and priority permitted setting the MemManage handler to the pending state when the floating-point stack frame was allocated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>BFRDY</name>
<description>Permission to set the BusFault handler to the pending state when the floating-point stack frame was allocated.</description>
<bitOffset>6</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>BusFault is disabled or priority did not permit setting the BusFault handler to the pending state when the floating-point stack frame was allocated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>BusFault is disabled or priority did not permit setting the BusFault handler to the pending state when the floating-point stack frame was allocated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>MONRDY</name>
<description>Permission to set the MON_PEND when the floating-point stack frame was allocated.</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>DebugMonitor is disabled or priority did not permit setting MON_PEND when the floating-point stack frame was allocated.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>DebugMonitor is enabled and priority permits setting MON_PEND when the floating-point stack frame was allocated.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>LSPEN</name>
<description>Lazy state preservation for floating-point context.</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable automatic lazy state preservation for floating-point context.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable automatic lazy state preservation for floating-point context.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>ASPEN</name>
<description>Enables CONTROL2 setting on execution of a floating-point instruction. This results in automatic hardware state preservation and restoration, for floating-point context, on exception entry and exit.</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable CONTROL2 setting on execution of a floating-point instruction.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable CONTROL2 setting on execution of a floating-point instruction.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>FPCAR</name>
<description>Floating-point Context Address Register</description>
<addressOffset>0xF38</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0</resetMask>
<fields>
<field>
<name>ADDRESS</name>
<description>The location of the unpopulated floating-point register space allocated on an exception stack frame.</description>
<bitOffset>3</bitOffset>
<bitWidth>29</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>FPDSCR</name>
<description>Floating-point Default Status Control Register</description>
<addressOffset>0xF3C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RMode</name>
<description>Default value for FPSCR.RMode (Rounding Mode control field).</description>
<bitOffset>22</bitOffset>
<bitWidth>2</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>00</name>
<description>Round to Nearest (RN) mode</description>
<value>#00</value>
</enumeratedValue>
<enumeratedValue>
<name>01</name>
<description>Round towards Plus Infinity (RP) mode.</description>
<value>#01</value>
</enumeratedValue>
<enumeratedValue>
<name>10</name>
<description>Round towards Minus Infinity (RM) mode.</description>
<value>#10</value>
</enumeratedValue>
<enumeratedValue>
<name>11</name>
<description>Round towards Zero (RZ) mode.</description>
<value>#11</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FZ</name>
<description>Default value for FPSCR.FZ (Flush-to-zero mode control bit).</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Flush-to-zero mode disabled. Behavior of the floating-point system is fully compliant with the IEEE 754 standard.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Flush-to-zero mode enabled.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>DN</name>
<description>Default value for FPSCR.DN (Default NaN mode control bit).</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>NaN operands propagate through to the output of a floating-point operation.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Any operation involving one or more NaNs returns the Default NaN.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>AHP</name>
<description>Default value for FPSCR.AHP (Alternative half-precision control bit).</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>IEEE half-precision format selected.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Alternative half-precision format selected.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>SysTick</name>
<description>System timer</description>
<prependToName>SYST_</prependToName>
<baseAddress>0xE000E010</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0x10</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>CSR</name>
<description>SysTick Control and Status Register</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x4</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ENABLE</name>
<description>no description available</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>counter disabled</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>counter enabled</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>TICKINT</name>
<description>no description available</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>counting down to 0 does not assert the SysTick exception request</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>counting down to 0 asserts the SysTick exception request</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CLKSOURCE</name>
<description>no description available</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>external clock</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>processor clock</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>COUNTFLAG</name>
<description>no description available</description>
<bitOffset>16</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>RVR</name>
<description>SysTick Reload Value Register</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>RELOAD</name>
<description>Value to load into the SysTick Current Value Register when the counter reaches 0</description>
<bitOffset>0</bitOffset>
<bitWidth>24</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CVR</name>
<description>SysTick Current Value Register</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CURRENT</name>
<description>Current value at the time the register is accessed</description>
<bitOffset>0</bitOffset>
<bitWidth>24</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>CALIB</name>
<description>SysTick Calibration Value Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-only</access>
<resetValue>0x80000000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>TENMS</name>
<description>Reload value to use for 10ms timing</description>
<bitOffset>0</bitOffset>
<bitWidth>24</bitWidth>
<access>read-only</access>
</field>
<field>
<name>SKEW</name>
<description>no description available</description>
<bitOffset>30</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>10ms calibration value is exact</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>10ms calibration value is inexact, because of the clock frequency</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>NOREF</name>
<description>no description available</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>The reference clock is provided</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>The reference clock is not provided</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>NVIC</name>
<description>Nested Vectored Interrupt Controller</description>
<baseAddress>0xE000E100</baseAddress>
<addressBlock>
<offset>0</offset>
<size>0xE04</size>
<usage>registers</usage>
</addressBlock>
<registers>
<register>
<name>NVIC_ISER0</name>
<description>Interrupt Set Enable Register n</description>
<addressOffset>0</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SETENA</name>
<description>Interrupt set enable bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ISER1</name>
<description>Interrupt Set Enable Register n</description>
<addressOffset>0x4</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SETENA</name>
<description>Interrupt set enable bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ISER2</name>
<description>Interrupt Set Enable Register n</description>
<addressOffset>0x8</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SETENA</name>
<description>Interrupt set enable bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ISER3</name>
<description>Interrupt Set Enable Register n</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SETENA</name>
<description>Interrupt set enable bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ICER0</name>
<description>Interrupt Clear Enable Register n</description>
<addressOffset>0x80</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLRENA</name>
<description>Interrupt clear-enable bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ICER1</name>
<description>Interrupt Clear Enable Register n</description>
<addressOffset>0x84</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLRENA</name>
<description>Interrupt clear-enable bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ICER2</name>
<description>Interrupt Clear Enable Register n</description>
<addressOffset>0x88</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLRENA</name>
<description>Interrupt clear-enable bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ICER3</name>
<description>Interrupt Clear Enable Register n</description>
<addressOffset>0x8C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLRENA</name>
<description>Interrupt clear-enable bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ISPR0</name>
<description>Interrupt Set Pending Register n</description>
<addressOffset>0x100</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SETPEND</name>
<description>Interrupt set-pending bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ISPR1</name>
<description>Interrupt Set Pending Register n</description>
<addressOffset>0x104</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SETPEND</name>
<description>Interrupt set-pending bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ISPR2</name>
<description>Interrupt Set Pending Register n</description>
<addressOffset>0x108</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SETPEND</name>
<description>Interrupt set-pending bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ISPR3</name>
<description>Interrupt Set Pending Register n</description>
<addressOffset>0x10C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>SETPEND</name>
<description>Interrupt set-pending bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ICPR0</name>
<description>Interrupt Clear Pending Register n</description>
<addressOffset>0x180</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLRPEND</name>
<description>Interrupt clear-pending bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ICPR1</name>
<description>Interrupt Clear Pending Register n</description>
<addressOffset>0x184</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLRPEND</name>
<description>Interrupt clear-pending bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ICPR2</name>
<description>Interrupt Clear Pending Register n</description>
<addressOffset>0x188</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLRPEND</name>
<description>Interrupt clear-pending bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_ICPR3</name>
<description>Interrupt Clear Pending Register n</description>
<addressOffset>0x18C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CLRPEND</name>
<description>Interrupt clear-pending bits</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IABR0</name>
<description>Interrupt Active bit Register n</description>
<addressOffset>0x200</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ACTIVE</name>
<description>Interrupt active flags</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IABR1</name>
<description>Interrupt Active bit Register n</description>
<addressOffset>0x204</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ACTIVE</name>
<description>Interrupt active flags</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IABR2</name>
<description>Interrupt Active bit Register n</description>
<addressOffset>0x208</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ACTIVE</name>
<description>Interrupt active flags</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IABR3</name>
<description>Interrupt Active bit Register n</description>
<addressOffset>0x20C</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ACTIVE</name>
<description>Interrupt active flags</description>
<bitOffset>0</bitOffset>
<bitWidth>32</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP0</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x300</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI0</name>
<description>Priority of interrupt 0</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP1</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x301</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI1</name>
<description>Priority of interrupt 1</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP2</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x302</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI2</name>
<description>Priority of interrupt 2</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP3</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x303</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI3</name>
<description>Priority of interrupt 3</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP4</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x304</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI4</name>
<description>Priority of interrupt 4</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP5</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x305</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI5</name>
<description>Priority of interrupt 5</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP6</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x306</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI6</name>
<description>Priority of interrupt 6</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP7</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x307</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI7</name>
<description>Priority of interrupt 7</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP8</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x308</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI8</name>
<description>Priority of interrupt 8</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP9</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x309</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI9</name>
<description>Priority of interrupt 9</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP10</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x30A</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI10</name>
<description>Priority of interrupt 10</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP11</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x30B</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI11</name>
<description>Priority of interrupt 11</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP12</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x30C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI12</name>
<description>Priority of interrupt 12</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP13</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x30D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI13</name>
<description>Priority of interrupt 13</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP14</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x30E</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI14</name>
<description>Priority of interrupt 14</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP15</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x30F</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI15</name>
<description>Priority of interrupt 15</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP16</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x310</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI16</name>
<description>Priority of interrupt 16</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP17</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x311</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI17</name>
<description>Priority of interrupt 17</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP18</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x312</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI18</name>
<description>Priority of interrupt 18</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP19</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x313</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI19</name>
<description>Priority of interrupt 19</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP20</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x314</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI20</name>
<description>Priority of interrupt 20</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP21</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x315</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI21</name>
<description>Priority of interrupt 21</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP22</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x316</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI22</name>
<description>Priority of interrupt 22</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP23</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x317</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI23</name>
<description>Priority of interrupt 23</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP24</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x318</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI24</name>
<description>Priority of interrupt 24</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP25</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x319</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI25</name>
<description>Priority of interrupt 25</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP26</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x31A</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI26</name>
<description>Priority of interrupt 26</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP27</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x31B</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI27</name>
<description>Priority of interrupt 27</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP28</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x31C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI28</name>
<description>Priority of interrupt 28</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP29</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x31D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI29</name>
<description>Priority of interrupt 29</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP30</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x31E</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI30</name>
<description>Priority of interrupt 30</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP31</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x31F</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI31</name>
<description>Priority of interrupt 31</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP32</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x320</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI32</name>
<description>Priority of interrupt 32</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP33</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x321</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI33</name>
<description>Priority of interrupt 33</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP34</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x322</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI34</name>
<description>Priority of interrupt 34</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP35</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x323</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI35</name>
<description>Priority of interrupt 35</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP36</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x324</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI36</name>
<description>Priority of interrupt 36</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP37</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x325</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI37</name>
<description>Priority of interrupt 37</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP38</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x326</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI38</name>
<description>Priority of interrupt 38</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP39</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x327</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI39</name>
<description>Priority of interrupt 39</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP40</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x328</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI40</name>
<description>Priority of interrupt 40</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP41</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x329</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI41</name>
<description>Priority of interrupt 41</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP42</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x32A</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI42</name>
<description>Priority of interrupt 42</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP43</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x32B</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI43</name>
<description>Priority of interrupt 43</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP44</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x32C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI44</name>
<description>Priority of interrupt 44</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP45</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x32D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI45</name>
<description>Priority of interrupt 45</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP46</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x32E</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI46</name>
<description>Priority of interrupt 46</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP47</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x32F</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI47</name>
<description>Priority of interrupt 47</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP48</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x330</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI48</name>
<description>Priority of interrupt 48</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP49</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x331</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI49</name>
<description>Priority of interrupt 49</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP50</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x332</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI50</name>
<description>Priority of interrupt 50</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP51</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x333</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI51</name>
<description>Priority of interrupt 51</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP52</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x334</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI52</name>
<description>Priority of interrupt 52</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP53</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x335</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI53</name>
<description>Priority of interrupt 53</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP54</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x336</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI54</name>
<description>Priority of interrupt 54</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP55</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x337</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI55</name>
<description>Priority of interrupt 55</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP56</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x338</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI56</name>
<description>Priority of interrupt 56</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP57</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x339</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI57</name>
<description>Priority of interrupt 57</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP58</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x33A</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI58</name>
<description>Priority of interrupt 58</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP59</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x33B</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI59</name>
<description>Priority of interrupt 59</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP60</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x33C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI60</name>
<description>Priority of interrupt 60</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP61</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x33D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI61</name>
<description>Priority of interrupt 61</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP62</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x33E</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI62</name>
<description>Priority of interrupt 62</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP63</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x33F</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI63</name>
<description>Priority of interrupt 63</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP64</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x340</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI64</name>
<description>Priority of interrupt 64</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP65</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x341</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI65</name>
<description>Priority of interrupt 65</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP66</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x342</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI66</name>
<description>Priority of interrupt 66</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP67</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x343</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI67</name>
<description>Priority of interrupt 67</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP68</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x344</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI68</name>
<description>Priority of interrupt 68</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP69</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x345</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI69</name>
<description>Priority of interrupt 69</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP70</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x346</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI70</name>
<description>Priority of interrupt 70</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP71</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x347</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI71</name>
<description>Priority of interrupt 71</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP72</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x348</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI72</name>
<description>Priority of interrupt 72</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP73</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x349</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI73</name>
<description>Priority of interrupt 73</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP74</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x34A</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI74</name>
<description>Priority of interrupt 74</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP75</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x34B</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI75</name>
<description>Priority of interrupt 75</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP76</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x34C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI76</name>
<description>Priority of interrupt 76</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP77</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x34D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI77</name>
<description>Priority of interrupt 77</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP78</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x34E</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI78</name>
<description>Priority of interrupt 78</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP79</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x34F</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI79</name>
<description>Priority of interrupt 79</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP80</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x350</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI80</name>
<description>Priority of interrupt 80</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP81</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x351</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI81</name>
<description>Priority of interrupt 81</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP82</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x352</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI82</name>
<description>Priority of interrupt 82</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP83</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x353</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI83</name>
<description>Priority of interrupt 83</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP84</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x354</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI84</name>
<description>Priority of interrupt 84</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP85</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x355</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI85</name>
<description>Priority of interrupt 85</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP86</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x356</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI86</name>
<description>Priority of interrupt 86</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP87</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x357</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI87</name>
<description>Priority of interrupt 87</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP88</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x358</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI88</name>
<description>Priority of interrupt 88</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP89</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x359</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI89</name>
<description>Priority of interrupt 89</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP90</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x35A</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI90</name>
<description>Priority of interrupt 90</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP91</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x35B</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI91</name>
<description>Priority of interrupt 91</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP92</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x35C</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI92</name>
<description>Priority of interrupt 92</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP93</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x35D</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI93</name>
<description>Priority of interrupt 93</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP94</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x35E</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI94</name>
<description>Priority of interrupt 94</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP95</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x35F</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI95</name>
<description>Priority of interrupt 95</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP96</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x360</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI96</name>
<description>Priority of interrupt 96</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP97</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x361</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI97</name>
<description>Priority of interrupt 97</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP98</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x362</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI98</name>
<description>Priority of interrupt 98</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP99</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x363</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI99</name>
<description>Priority of interrupt 99</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP100</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x364</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI100</name>
<description>Priority of interrupt 100</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP101</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x365</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI101</name>
<description>Priority of interrupt 101</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP102</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x366</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI102</name>
<description>Priority of interrupt 102</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP103</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x367</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI103</name>
<description>Priority of interrupt 103</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP104</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x368</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI104</name>
<description>Priority of interrupt 104</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_IP105</name>
<description>Interrupt Priority Register n</description>
<addressOffset>0x369</addressOffset>
<size>8</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFF</resetMask>
<fields>
<field>
<name>PRI105</name>
<description>Priority of interrupt 105</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
<register>
<name>NVIC_STIR</name>
<description>Software Trigger Interrupt Register</description>
<addressOffset>0xE00</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>INTID</name>
<description>Interrupt ID of the interrupt to trigger, in the range 0-239. For example, a value of 0x03 specifies interrupt IRQ3.</description>
<bitOffset>0</bitOffset>
<bitWidth>9</bitWidth>
<access>read-write</access>
</field>
</fields>
</register>
</registers>
</peripheral>
<peripheral>
<name>MCM</name>
<description>Core Platform Miscellaneous Control Module</description>
<prependToName>MCM_</prependToName>
<baseAddress>0xE0080000</baseAddress>
<addressBlock>
<offset>0x8</offset>
<size>0x3C</size>
<usage>registers</usage>
</addressBlock>
<interrupt>
<name>MCM</name>
<value>17</value>
</interrupt>
<registers>
<register>
<name>PLASC</name>
<description>Crossbar Switch (AXBS) Slave Configuration</description>
<addressOffset>0x8</addressOffset>
<size>16</size>
<access>read-only</access>
<resetValue>0xF</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>ASC</name>
<description>Each bit in the ASC field indicates whether there is a corresponding connection to the crossbar switch&apos;s slave input port.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A bus slave connection to AXBS input port n is absent</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A bus slave connection to AXBS input port n is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PLAMC</name>
<description>Crossbar Switch (AXBS) Master Configuration</description>
<addressOffset>0xA</addressOffset>
<size>16</size>
<access>read-only</access>
<resetValue>0x17</resetValue>
<resetMask>0xFFFF</resetMask>
<fields>
<field>
<name>AMC</name>
<description>Each bit in the AMC field indicates whether there is a corresponding connection to the AXBS master input port.</description>
<bitOffset>0</bitOffset>
<bitWidth>8</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>A bus master connection to AXBS input port n is absent</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>A bus master connection to AXBS input port n is present</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>PLACR</name>
<description>Crossbar Switch (AXBS) Control Register</description>
<addressOffset>0xC</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>ARB</name>
<description>Arbitration select</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Fixed-priority arbitration for the crossbar masters</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Round-robin arbitration for the crossbar masters</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>ISCR</name>
<description>Interrupt Status and Control Register</description>
<addressOffset>0x10</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0x20000</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>FIOC</name>
<description>FPU invalid operation interrupt status</description>
<bitOffset>8</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FDZC</name>
<description>FPU divide-by-zero interrupt status</description>
<bitOffset>9</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FOFC</name>
<description>FPU overflow interrupt status</description>
<bitOffset>10</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FUFC</name>
<description>FPU underflow interrupt status</description>
<bitOffset>11</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FIXC</name>
<description>FPU inexact interrupt status</description>
<bitOffset>12</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FIDC</name>
<description>FPU input denormal interrupt status</description>
<bitOffset>15</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Interrupt occurred</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FIOCE</name>
<description>FPU invalid operation interrupt enable</description>
<bitOffset>24</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable interrupt</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FDZCE</name>
<description>FPU divide-by-zero interrupt enable</description>
<bitOffset>25</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable interrupt</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FOFCE</name>
<description>FPU overflow interrupt enable</description>
<bitOffset>26</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable interrupt</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FUFCE</name>
<description>FPU underflow interrupt enable</description>
<bitOffset>27</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable interrupt</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FIXCE</name>
<description>FPU inexact interrupt enable</description>
<bitOffset>28</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable interrupt</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>FIDCE</name>
<description>FPU input denormal interrupt enable</description>
<bitOffset>31</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Disable interrupt</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Enable interrupt</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
<register>
<name>CPO</name>
<description>Compute Operation Control Register</description>
<addressOffset>0x40</addressOffset>
<size>32</size>
<access>read-write</access>
<resetValue>0</resetValue>
<resetMask>0xFFFFFFFF</resetMask>
<fields>
<field>
<name>CPOREQ</name>
<description>Compute Operation request</description>
<bitOffset>0</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Request is cleared.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Request Compute Operation.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOACK</name>
<description>Compute Operation acknowledge</description>
<bitOffset>1</bitOffset>
<bitWidth>1</bitWidth>
<access>read-only</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>Compute operation entry has not completed or compute operation exit has completed.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>Compute operation entry has completed or compute operation exit has not completed.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
<field>
<name>CPOWOI</name>
<description>Compute Operation wakeup on interrupt</description>
<bitOffset>2</bitOffset>
<bitWidth>1</bitWidth>
<access>read-write</access>
<enumeratedValues>
<enumeratedValue>
<name>0</name>
<description>No effect.</description>
<value>#0</value>
</enumeratedValue>
<enumeratedValue>
<name>1</name>
<description>When set, the CPOREQ is cleared on any interrupt or exception vector fetch.</description>
<value>#1</value>
</enumeratedValue>
</enumeratedValues>
</field>
</fields>
</register>
</registers>
</peripheral>
</peripherals>
</device>
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