i.MX RT1062 canfd driver example 8Mbit/s

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i.MX RT1062 canfd driver example 8Mbit/s

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jim_verheijde
Contributor II

Hello,

 

I am currently trying to get the canfd driver example project to work with an RT1062 board. However, at a baudrateFD of 8Mbit/s there is no communication taking place.

 

The example project is located in the NXP SDK 2.8.2 at the following path: \SDK_2.8.2_EVK-MIMXRT1060\boards\evkmimxrt1060\driver_examples\canfd\interrupt_transfer

 

The following is the code, note that I changed the clock settings to get a CAN clock of 80MHz and enable the calculate improved timings and the flexcanConfig.baudrateFD of 8000000:

 

 

/*
 * Copyright (c) 2015, Freescale Semiconductor, Inc.
 * Copyright 2016-2019 NXP
 * All rights reserved.
 *
 * SPDX-License-Identifier: BSD-3-Clause
 */

#include "fsl_debug_console.h"
#include "fsl_flexcan.h"
#include "board.h"

#include "pin_mux.h"
#include "clock_config.h"
/*******************************************************************************
 * Definitions
 ******************************************************************************/
#define EXAMPLE_CAN CAN3

/* Considering that the first valid MB must be used as Reserved TX MB for ERR005829,
 * if RX FIFO enables (RFEN bit in MCE set as 1) and RFFN in CTRL2 is set default as zero,
 * the first valid TX MB Number shall be 8;
 * if RX FIFO enables (RFEN bit in MCE set as 1) and RFFN in CTRL2 is set by other values (0x1~0xF),
 * the user should consider to detail the first valid MB number;
 * if RX FIFO disables (RFEN bit in MCE set as 0) , the first valid MB number would be zero.
 */
#define RX_MESSAGE_BUFFER_NUM (10)
#define TX_MESSAGE_BUFFER_NUM (9)

#define USE_CANFD (1)
#define USE_IMPROVED_TIMING_CONFIG (1)
/*
 *    DWORD_IN_MB    DLC    BYTES_IN_MB             Maximum MBs
 *    2              8      kFLEXCAN_8BperMB        64
 *    4              10     kFLEXCAN_16BperMB       42
 *    8              13     kFLEXCAN_32BperMB       24
 *    16             15     kFLEXCAN_64BperMB       14
 *
 * Dword in each message buffer, Length of data in bytes, Payload size must align,
 * and the Message Buffers are limited corresponding to each payload configuration:
 */
#define DWORD_IN_MB (16)
#define DLC         (15)
#define BYTES_IN_MB kFLEXCAN_64BperMB

/* To get most precise baud rate under some circumstances, users need to set
   quantum which is composed of PSEG1/PSEG2/PROPSEG. Because CAN clock prescaler
   = source clock/(baud rate * quantum), for e.g. 84M clock and 1M baud rate, the
   quantum should be .e.g 14=(6+3+1)+4, so prescaler is 6. By default, quantum
   is set to 10=(3+2+1)+4, because for most platforms e.g. 120M source clock/(1M
   baud rate * 10) is an integer. Remember users must ensure the calculated
   prescaler an integer thus to get precise baud rate. */
#define SET_CAN_QUANTUM 0
#define PSEG1           3
#define PSEG2           2
#define PROPSEG         1
#define FPSEG1          3
#define FPSEG2          3
#define FPROPSEG        1

#define EXAMPLE_CAN_CLK_SOURCE (kFLEXCAN_ClkSrc1)
/* Select 60M clock divided by USB1 PLL (480 MHz) as master flexcan clock source */
#define FLEXCAN_CLOCK_SOURCE_SELECT (2U)
/* Clock divider for master flexcan clock source */
#define FLEXCAN_CLOCK_SOURCE_DIVIDER (0U)
/* Get frequency of flexcan clock */
#if FLEXCAN_CLOCK_SOURCE_SELECT==(0U)
#define EXAMPLE_CAN_CLK_FREQ ((CLOCK_GetFreq(kCLOCK_Usb1PllClk) / 8U) / (FLEXCAN_CLOCK_SOURCE_DIVIDER + 1U))
#elif FLEXCAN_CLOCK_SOURCE_SELECT==(1U)
#define EXAMPLE_CAN_CLK_FREQ (CLOCK_GetFreq(kCLOCK_OscClk))
#elif FLEXCAN_CLOCK_SOURCE_SELECT==(2U)
#define EXAMPLE_CAN_CLK_FREQ ((CLOCK_GetFreq(kCLOCK_Usb1PllClk) / 6U) / (FLEXCAN_CLOCK_SOURCE_DIVIDER + 1U))
#else
#error "FLEXCAN_CLOCK_SOURCE_SELECT, should be (0U) for /8 or (2U) for /6, see page 1060 of the RT.1060 reference manual"
#endif
/* Fix MISRA_C-2012 Rule 17.7. */
#define LOG_INFO (void)PRINTF
/*******************************************************************************
 * Prototypes
 ******************************************************************************/

/*******************************************************************************
 * Variables
 ******************************************************************************/
flexcan_handle_t flexcanHandle;
volatile bool txComplete = false;
volatile bool rxComplete = false;
volatile bool wakenUp    = false;
flexcan_mb_transfer_t txXfer, rxXfer;
#if (defined(USE_CANFD) && USE_CANFD)
flexcan_fd_frame_t frame;
#else
flexcan_frame_t frame;
#endif
uint32_t txIdentifier;
uint32_t rxIdentifier;

/*******************************************************************************
 * Code
 ******************************************************************************/
/*!
 * @brief FlexCAN Call Back function
 */
static void flexcan_callback(CAN_Type *base, flexcan_handle_t *handle, status_t status, uint32_t result, void *userData)
{
    switch (status)
    {
        case kStatus_FLEXCAN_RxIdle:
            if (RX_MESSAGE_BUFFER_NUM == result)
            {
                rxComplete = true;
            }
            break;

        case kStatus_FLEXCAN_TxIdle:
            if (TX_MESSAGE_BUFFER_NUM == result)
            {
                txComplete = true;
            }
            break;

        case kStatus_FLEXCAN_WakeUp:
            wakenUp = true;
            break;

        default:
            break;
    }
}

/*!
 * @brief Main function
 */
int main(void)
{
    flexcan_config_t flexcanConfig;
    flexcan_rx_mb_config_t mbConfig;
    uint8_t node_type;

    /* Initialize board hardware. */
    BOARD_ConfigMPU();
    BOARD_InitPins();
    BOARD_BootClockRUN();
    BOARD_InitDebugConsole();

	/* Must enable LPUART clock according to errata 50235 if we want to use CAN_CLK_SELECT 2. */
#if FLEXCAN_CLOCK_SOURCE_SELECT==(2U)
	LOG_INFO("Enable Lpuart1\r\n");
	CLOCK_EnableClock(kCLOCK_Lpuart1);
#endif
	
    /*Clock setting for FLEXCAN*/
    CLOCK_SetMux(kCLOCK_CanMux, FLEXCAN_CLOCK_SOURCE_SELECT);
    CLOCK_SetDiv(kCLOCK_CanDiv, FLEXCAN_CLOCK_SOURCE_DIVIDER);

    LOG_INFO("********* FLEXCAN Interrupt EXAMPLE *********\r\n");
    LOG_INFO("    Message format: Standard (11 bit id)\r\n");
    LOG_INFO("    Message buffer %d used for Rx.\r\n", RX_MESSAGE_BUFFER_NUM);
    LOG_INFO("    Message buffer %d used for Tx.\r\n", TX_MESSAGE_BUFFER_NUM);
    LOG_INFO("    Interrupt Mode: Enabled\r\n");
    LOG_INFO("    Operation Mode: TX and RX --> Normal\r\n");
	LOG_INFO("    CAN_CLK_SPEED: %d\r\n", EXAMPLE_CAN_CLK_FREQ);
    LOG_INFO("*********************************************\r\n\r\n");

    do
    {
        LOG_INFO("Please select local node as A or B:\r\n");
        LOG_INFO("Note: Node B should start first.\r\n");
        LOG_INFO("Node:");
        node_type = GETCHAR();
        LOG_INFO("%c", node_type);
        LOG_INFO("\r\n");
    } while ((node_type != 'A') && (node_type != 'B') && (node_type != 'a') && (node_type != 'b'));

    /* Select mailbox ID. */
    if ((node_type == 'A') || (node_type == 'a'))
    {
        txIdentifier = 0x321;
        rxIdentifier = 0x123;
    }
    else
    {
        txIdentifier = 0x123;
        rxIdentifier = 0x321;
    }

    /* Get FlexCAN module default Configuration. */
    /*
     * flexcanConfig.clksrc=kFLEXCAN_ClkSrc0;
     * flexcanConfig.baudRate               = 1000000U;
     * flexcanConfig.baudRateFD             = 2000000U;
     * flexcanConfig.maxMbNum               = 16;
     * flexcanConfig.enableLoopBack         = false;
     * flexcanConfig.enableSelfWakeup       = false;
     * flexcanConfig.enableIndividMask      = false;
     * flexcanConfig.disableSelfReception   = false;
     * flexcanConfig.enableListenOnlyMode   = false;
     * flexcanConfig.enableDoze             = false;
     */
    FLEXCAN_GetDefaultConfig(&flexcanConfig);

#if defined(EXAMPLE_CAN_CLK_SOURCE)
    flexcanConfig.clksrc=EXAMPLE_CAN_CLK_SOURCE;
#endif
	
	flexcanConfig.baudRateFD             = 8000000U;

/* If special quantum setting is needed, set the timing parameters. */
#if (defined(SET_CAN_QUANTUM) && SET_CAN_QUANTUM)
    flexcanConfig.timingConfig.phaseSeg1 = PSEG1;
    flexcanConfig.timingConfig.phaseSeg2 = PSEG2;
    flexcanConfig.timingConfig.propSeg   = PROPSEG;
#if (defined(FSL_FEATURE_FLEXCAN_HAS_FLEXIBLE_DATA_RATE) && FSL_FEATURE_FLEXCAN_HAS_FLEXIBLE_DATA_RATE)
    flexcanConfig.timingConfig.fphaseSeg1 = FPSEG1;
    flexcanConfig.timingConfig.fphaseSeg2 = FPSEG2;
    flexcanConfig.timingConfig.fpropSeg   = FPROPSEG;
#endif
#endif

#if (defined(USE_IMPROVED_TIMING_CONFIG) && USE_IMPROVED_TIMING_CONFIG)
    flexcan_timing_config_t timing_config;
    memset(&timing_config, 0, sizeof(flexcan_timing_config_t));
#if (defined(USE_CANFD) && USE_CANFD)
    if (FLEXCAN_FDCalculateImprovedTimingValues(flexcanConfig.baudRate, flexcanConfig.baudRateFD, EXAMPLE_CAN_CLK_FREQ,
                                                &timing_config))
    {
        /* Update the improved timing configuration*/
        memcpy(&(flexcanConfig.timingConfig), &timing_config, sizeof(flexcan_timing_config_t));
		LOG_INFO("Improved fast timings:\r\n\r\n");
		LOG_INFO("preDiv: %d\r\n\r\n", timing_config.fpreDivider);
		LOG_INFO("Jumpwidth: %d\r\n\r\n", timing_config.frJumpwidth);
		LOG_INFO("phaseSeg1: %d\r\n\r\n", timing_config.fphaseSeg1);
		LOG_INFO("phaseSeg2: %d\r\n\r\n", timing_config.fphaseSeg2);
		LOG_INFO("propSeg: %d\r\n\r\n", timing_config.fpropSeg);
    }
    else
    {
        LOG_INFO("No found Improved Timing Configuration. Just used default configuration\r\n\r\n");
    }
#else
    if (FLEXCAN_CalculateImprovedTimingValues(flexcanConfig.baudRate, EXAMPLE_CAN_CLK_FREQ, &timing_config))
    {
        /* Update the improved timing configuration*/
        memcpy(&(flexcanConfig.timingConfig), &timing_config, sizeof(flexcan_timing_config_t));
    }
    else
    {
        LOG_INFO("No found Improved Timing Configuration. Just used default configuration\r\n\r\n");
    }
#endif
#endif

#if (defined(USE_CANFD) && USE_CANFD)
    FLEXCAN_FDInit(EXAMPLE_CAN, &flexcanConfig, EXAMPLE_CAN_CLK_FREQ, BYTES_IN_MB, true);
#else
    FLEXCAN_Init(EXAMPLE_CAN, &flexcanConfig, EXAMPLE_CAN_CLK_FREQ);
#endif

    /* Create FlexCAN handle structure and set call back function. */
    FLEXCAN_TransferCreateHandle(EXAMPLE_CAN, &flexcanHandle, flexcan_callback, NULL);

    /* Set Rx Masking mechanism. */
    FLEXCAN_SetRxMbGlobalMask(EXAMPLE_CAN, FLEXCAN_RX_MB_STD_MASK(rxIdentifier, 0, 0));

    /* Setup Rx Message Buffer. */
    mbConfig.format = kFLEXCAN_FrameFormatStandard;
    mbConfig.type   = kFLEXCAN_FrameTypeData;
    mbConfig.id     = FLEXCAN_ID_STD(rxIdentifier);
#if (defined(USE_CANFD) && USE_CANFD)
    FLEXCAN_SetFDRxMbConfig(EXAMPLE_CAN, RX_MESSAGE_BUFFER_NUM, &mbConfig, true);
#else
    FLEXCAN_SetRxMbConfig(EXAMPLE_CAN, RX_MESSAGE_BUFFER_NUM, &mbConfig, true);
#endif

/* Setup Tx Message Buffer. */
#if (defined(USE_CANFD) && USE_CANFD)
    FLEXCAN_SetFDTxMbConfig(EXAMPLE_CAN, TX_MESSAGE_BUFFER_NUM, true);
#else
    FLEXCAN_SetTxMbConfig(EXAMPLE_CAN, TX_MESSAGE_BUFFER_NUM, true);
#endif

    if ((node_type == 'A') || (node_type == 'a'))
    {
        LOG_INFO("Press any key to trigger one-shot transmission\r\n\r\n");
        frame.dataByte0 = 0;
    }
    else
    {
        LOG_INFO("Start to Wait data from Node A\r\n\r\n");
    }

    while (true)
    {
        if ((node_type == 'A') || (node_type == 'a'))
        {
            GETCHAR();

            frame.id     = FLEXCAN_ID_STD(txIdentifier);
            frame.format = (uint8_t)kFLEXCAN_FrameFormatStandard;
            frame.type   = (uint8_t)kFLEXCAN_FrameTypeData;
            frame.length = (uint8_t)DLC;
#if (defined(USE_CANFD) && USE_CANFD)
            frame.brs = (uint8_t)1U;
#endif
            txXfer.mbIdx = (uint8_t)TX_MESSAGE_BUFFER_NUM;
#if (defined(USE_CANFD) && USE_CANFD)
            txXfer.framefd = &frame;
            (void)FLEXCAN_TransferFDSendNonBlocking(EXAMPLE_CAN, &flexcanHandle, &txXfer);
#else
            txXfer.frame = &frame;
            (void)FLEXCAN_TransferSendNonBlocking(EXAMPLE_CAN, &flexcanHandle, &txXfer);
#endif

            while (!txComplete)
            {
            };
            txComplete = false;

            /* Start receive data through Rx Message Buffer. */
            rxXfer.mbIdx = (uint8_t)RX_MESSAGE_BUFFER_NUM;
#if (defined(USE_CANFD) && USE_CANFD)
            rxXfer.framefd = &frame;
            (void)FLEXCAN_TransferFDReceiveNonBlocking(EXAMPLE_CAN, &flexcanHandle, &rxXfer);
#else
            rxXfer.frame = &frame;
            (void)FLEXCAN_TransferReceiveNonBlocking(EXAMPLE_CAN, &flexcanHandle, &rxXfer);
#endif

            /* Wait until Rx MB full. */
            while (!rxComplete)
            {
            };
            rxComplete = false;

            LOG_INFO("Rx MB ID: 0x%3x, Rx MB data: 0x%x, Time stamp: %d\r\n", frame.id >> CAN_ID_STD_SHIFT,
                     frame.dataByte0, frame.timestamp);
            LOG_INFO("Press any key to trigger the next transmission!\r\n\r\n");
            frame.dataByte0++;
            frame.dataByte1 = 0x55;
        }
        else
        {
            /* Before this , should first make node B enter STOP mode after FlexCAN
             * initialized with enableSelfWakeup=true and Rx MB configured, then A
             * sends frame N which wakes up node B. A will continue to send frame N
             * since no acknowledgement, then B received the second frame N(In the
             * application it seems that B received the frame that woke it up which
             * is not expected as stated in the reference manual, but actually the
             * output in the terminal B received is the same second frame N). */
            if (wakenUp)
            {
                LOG_INFO("B has been waken up!\r\n\r\n");
            }

            /* Start receive data through Rx Message Buffer. */
            rxXfer.mbIdx = (uint8_t)RX_MESSAGE_BUFFER_NUM;
#if (defined(USE_CANFD) && USE_CANFD)
            rxXfer.framefd = &frame;
            (void)FLEXCAN_TransferFDReceiveNonBlocking(EXAMPLE_CAN, &flexcanHandle, &rxXfer);
#else
            rxXfer.frame = &frame;
            (void)FLEXCAN_TransferReceiveNonBlocking(EXAMPLE_CAN, &flexcanHandle, &rxXfer);
#endif

            /* Wait until Rx receive full. */
            while (!rxComplete)
            {
            };
            rxComplete = false;

            LOG_INFO("Rx MB ID: 0x%3x, Rx MB data: 0x%x, Time stamp: %d\r\n", frame.id >> CAN_ID_STD_SHIFT,
                     frame.dataByte0, frame.timestamp);

            frame.id     = FLEXCAN_ID_STD(txIdentifier);
            txXfer.mbIdx = (uint8_t)TX_MESSAGE_BUFFER_NUM;
#if (defined(USE_CANFD) && USE_CANFD)
            frame.brs      = 1;
            txXfer.framefd = &frame;
            (void)FLEXCAN_TransferFDSendNonBlocking(EXAMPLE_CAN, &flexcanHandle, &txXfer);
#else
            txXfer.frame = &frame;
            (void)FLEXCAN_TransferSendNonBlocking(EXAMPLE_CAN, &flexcanHandle, &txXfer);
#endif

            while (!txComplete)
            {
            };
            txComplete = false;
            LOG_INFO("Wait Node A to trigger the next transmission!\r\n\r\n");
        }
    }
}

 

 

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FelipeGarcia
NXP Employee
NXP Employee

Hi Jim,

Please note that the MIMXRT1060-EVK uses TJA1057GT CAN transceiver and it only supports data rates up to 5 Mbit/s.

Best regards,

Felipe

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FelipeGarcia
NXP Employee
NXP Employee

Hi Jim,

Are you using a High-speed CAN transceiver that supports 8 Mbit/s data rates?

Best regards,

Felipe

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jim_verheijde
Contributor II

Yes I'm actually using 2 i.MX RT1062 devkits connected to each other via the CANFD pins so this should work. I tested it to work with default settings first (2Mbit/s and CAN_CLK of 20MHz)

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FelipeGarcia
NXP Employee
NXP Employee

Hi Jim,

Please note that the MIMXRT1060-EVK uses TJA1057GT CAN transceiver and it only supports data rates up to 5 Mbit/s.

Best regards,

Felipe

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jim_verheijde
Contributor II

Thank you, where can one find this information about which internal controllers are used?

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MrHWT
Contributor I

Hello,do you solve it?

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