RAMAN MALYA

MPC5554 FlexCAN Problem

Discussion created by RAMAN MALYA on Mar 19, 2010
Latest reply on Dec 16, 2010 by Julien PONNOU

I have a code written for enabling FlexCAN on MPC5554. I am transferring data message from CAN_A to CAN_B at around 100KHz. To validate the same code, I have connected CANH1 to CANH2 and CANL1 to CANL2 and same has been connected to oscilloscope probes for observing the data. The problem here is " Data never stops transmitting".

 

I can see data keep on transmitting again and again. Even after stopping the CodeWarrior debugger, the data is still transmitting. Please find the code below for your reference. I tried the same using FREEZE Mode, Normal mode and Loopback mode. in all cases the same issue.

 

Please suggest me of there is any problem in my code , register configurations.

 

 

#include "flexcan_mpc5554.h"

uint32_t RxCODE; /* Received message buffer code */
uint32_t RxID; /* Received message ID */
uint32_t RxLENGTH; /* Received message number of data bytes */
uint8_t RxDATA[8]; /* Received message data string*/
uint32_t RxTIMESTAMP; /* Received message time */

 

void initCAN_A (void) {
 uint8_t i;
 //CAN_A.MCR.R = 0x5000003F; /* Put in Freeze Mode & enable all 64 msg buffers*/
 CAN_A.MCR.R = 0x1000003F; /* Put in Normal & enable all 64 msg buffers*/ /* Normal Mode*/
 
// while(CAN_A.MCR.B.FRZ == 0) { } ;
 
 
 CAN_A.CR.R = 0x04DB0006;  /* Configure for 8MHz OSC, 100kHz bit time */
  
 for (i=0; i<64; i++) {
  CAN_A.BUF[i].CS.B.CODE = 0; /* Inactivate all message buffers */
 }
 
 CAN_A.BUF[0].CS.B.CODE = 8; /* Message Buffer 0 set to TX INACTIVE */
 
 SIU.PCR[83].R = 0x062C; /* MPC555x: Configure pad as CNTXA, open drain */
 SIU.PCR[84].R = 0x0500; /* MPC555x: Configure pad as CNRXA */
 CAN_A.MCR.R = 0x0000003F; /* Negate FlexCAN A halt state for 64 MB */


 //while (CAN_A.MCR.B.FRZACK == 0) {};
 
 
}

void initCAN_B (void) {
  uint8_t i;
  
  //CAN_B.MCR.R = 0x5000003F; /* Put in Freeze Mode & enable all 64 msg buffers*/
  CAN_B.MCR.R = 0x1000003F; /* Put in Normal & enable all 64 msg buffers*/ /*Normal Mode*/
  
  CAN_B.CR.R = 0x04DB0006; /* Configure for 8MHz OSC, 100kHz bit time */
   
  for (i=0; i<64; i++) {  
   CAN_B.BUF[i].CS.B.CODE = 0; /* Inactivate all message buffers */
  }
  
  CAN_B.BUF[4].CS.B.IDE = 0; /* MB 4 will look for a standard ID */
  CAN_B.BUF[4].ID.B.STD_ID = 555; /* MB 4 will look for ID = 555 */
  CAN_B.BUF[4].CS.B.CODE = 4; /* MB 4 set to RX EMPTY */
  CAN_B.RXGMASK.R = 0x1FFFFFFF; /* Global acceptance mask */
  

  SIU.PCR[87].R = 0x0E2C; /* MPC555x: Configure pad as CNTXC, open drain */
  SIU.PCR[88].R = 0x0D00; /* MPC555x: Configure pad as CNRXC */
  CAN_B.MCR.R = 0x0000003F; /* Negate FlexCAN B halt state for 64 MB */

}


void TransmitMsg (void) {
 uint8_t i;
 
 /* Assumption: Message buffer CODE is INACTIVE */
 const uint8_t TxData[] = {"Hello World!!  \n\r"}; /* Transmit string*/
 

 
 CAN_A.BUF[0].CS.B.IDE = 0; /* Use standard ID length */
 CAN_A.BUF[0].ID.B.STD_ID = 555; /* Transmit ID is 555 */
 CAN_A.BUF[0].CS.B.RTR = 0; /* Data frame, not remote Tx request frame */
 CAN_A.BUF[0].CS.B.LENGTH = sizeof(TxData) -1 ; /* # bytes to transmit w/o null */
 
 for (i=0; i<sizeof(TxData); i++) {
  CAN_A.BUF[0].DATA.B[i] = TxData[i]; /* Data to be transmitted */
 }
 
  CAN_A.BUF[0].CS.B.SRR = 1; /* Tx frame (not req'd for standard frame)*/
  CAN_A.BUF[0].CS.B.CODE =0xC; /* Activate msg. buf. to transmit data frame */  
}

void ReceiveMsg (void) {
 uint8_t j;
 uint32_t dummy; 

 while (CAN_B.IFRL.B.BUF04I == 0) {}; /* MPC555x: Wait for CAN B MB 4 flag */
  
  RxCODE = CAN_B.BUF[4].CS.B.CODE; /* Read CODE, ID, LENGTH, DATA, TIMESTAMP*/
  RxID = CAN_B.BUF[4].ID.B.STD_ID;
  RxLENGTH = CAN_B.BUF[4].CS.B.LENGTH;
  
  for (j=0; j<RxLENGTH; j++) {
   RxDATA[j] = CAN_B.BUF[4].DATA.B[j];
  }
  
  RxTIMESTAMP = CAN_B.BUF[4].CS.B.TIMESTAMP;
  dummy = CAN_B.TIMER.R; /* Read TIMER to unlock message buffers */
  
  /* Use 1 of the next 2 lines: */
  /*CAN_B.IFLAG1.R = 0x00000010;*/ /* MPC551x: Clear CAN C MB 4 flag */
  
  CAN_B.IFRL.R = 0x00000010; /* MPC555x: Clear CAN C MB 4 flag */ 

}


void FlexCAN_program()
{
 volatile uint32_t IdleCtr = 0;
 initCAN_B(); /* Initialize FLEXCAN B & one of its buffers for receive*/
 initCAN_A(); /* Initialize FlexCAN A & one of its buffers for transmit*/
 TransmitMsg(); /* Transmit one message from a FlexCAN A buffer */
 ReceiveMsg(); /* Wait for the message to be received at FlexCAN B */

 while (1) { /* Idle loop: increment counter */
  IdleCtr++;
 }
 
}

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