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| .. | ||
| armgcc | ||
| board.c | ||
| board.h | ||
| clock_config.c | ||
| clock_config.h | ||
| dcd.c | ||
| dcd.h | ||
| evkbimxrt1050_sdram_init.jlinkscript | ||
| flexcan_interrupt_transfer_v3_14.xml | ||
| flexcan_interrupt_transfer.c | ||
| pin_mux.c | ||
| pin_mux.h | ||
| readme.md | ||
Overview
The flexcan_interrupt example shows how to use FlexCAN driver in none-blocking interrupt way:
In this example, 2 boards are connected through CAN bus. Endpoint A(board A) send a CAN Message to Endpoint B(board B) when user press space key in terminal. Endpoint B receive the message, print the message content to terminal and echo back the message. Endpoint A will increase the received message and waiting for the next transmission of the user initiated.
For self wake up from STOP mode, since steps which MCU enters STOP mode differs on different MCUs, take flexcan_interrupt_transfer of twrke18f for example, user should do like this:
#include "fsl_smc.h"
...
...
flexcanConfig.enableSelfWakeup = true;
FLEXCAN_Init();
...
...
SMC_SetPowerModeStop(SMC, kSMC_PartialStop1);
if (wakenUp)
{
PRINTF("B has been waken up!\r\n\r\n");
}
...
...
SDK version
- Version: 2.15.000
Toolchain supported
- IAR embedded Workbench 9.40.1
- Keil MDK 5.38.1
- GCC ARM Embedded 12.2
- MCUXpresso 11.8.0
Hardware requirements
- Mini/micro USB cable
- EVKB-IMXRT1050 board
- Personal Computer
Board settings
The example requires 2 sets of boards, each of them are mounted with the base board. Using a male to male CAN cable to connect the CAN2 instance (J11) between the 2 base boards.
Prepare the Demo
- Connect a USB cable between the PC host and the OpenSDA USB on the board.
- Open a serial terminal on PC for OpenSDA serial device with these settings:
- 115200 baud rate
- 8 data bits
- No parity
- One stop bit
- No flow control
- Download the program to the target board.
- Either press the reset button on your board or launch the debugger in your IDE to begin running the example.
Running the demo
After connecting the two boards, these instructions display on each terminal window. One board must be chosen as node A and the other board as node B. (Note: Node B should start first) Data is sent continuously between the node A and the node B.
Consider special errata 005829 feature, the 1st valid MB should be used as reserved one.
The TX MB number will change from 8 to 9, while RX MB number will change from 9 to 10
This message displays on the node A terminal:
********* FLEXCAN Interrupt EXAMPLE *********
Message format: Standard (11 bit id)
Message buffer 10 used for Rx.
Message buffer 9 used for Tx.
Interrupt Mode: Enabled
Operation Mode: TX and RX --> Normal
*********************************************
Please select local node as A or B:
Note: Node B should start first.
Node:a
Press any key to trigger one-shot transmission
Rx MB ID: 0x123, Rx MB data: 0x0, Time stamp: 8877
Press any key to trigger the next transmission!
Rx MB ID: 0x123, Rx MB data: 0x1, Time stamp: 32459
Press any key to trigger the next transmission!
This message displays on the node B terminal:
********* FLEXCAN Interrupt EXAMPLE *********
Message format: Standard (11 bit id)
Message buffer 10 used for Rx.
Message buffer 9 used for Tx.
Interrupt Mode: Enabled
Operation Mode: TX and RX --> Normal
Please select local node as A or B:
Note: Node B should start first.
Node:b
Start to Wait data from Node A
Rx MB ID: 0x321, Rx MB data: 0x0, Time stamp: 5759
Wait Node A to trigger the next transmission!
Rx MB ID: 0x321, Rx MB data: 0x1, Time stamp: 57276
Wait Node A to trigger the next transmission!