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Discussion Starter · #1 ·
Hi,
I am using a Hykon LIFEPO4 battery pack. I want to communicate with the battery using arduino to read its parameters.
I have sent my CAN message as follows,

Frame ID :
0x018c0ef4 (System Information frame 1)

DATA:
0x00 0x00 0x00 0x00 0x00 0x00 0x00 0x00 ( All data zeros as specified)

The frame has been set to extended ID (as specified due to 29 bit identifier)

The CAN speed is set to 500kbps
The below code is an example program for the above procedure!

Please let me know why I cannot receive any data even after sending a frame with the specified identifier

Code:
#include <SPI.h>
#include <mcp_can.h>

const int spiCSPin = 10;

MCP_CAN CAN(spiCSPin);



void recv()
{
  unsigned char len = 0;
  unsigned char buf[8];

  Serial.println("No message!");
  if(CAN_MSGAVAIL == CAN.checkReceive())
    {
        CAN.readMsgBuf(&len, buf);

        unsigned long canId = CAN.getCanId();

        Serial.println("-----------------------------");
        Serial.print("Data from ID: 0x");
        Serial.println(canId, HEX);

        for(int i = 0; i<len; i++)
        {
            Serial.print(buf[i]);
            Serial.print("\t");

            

         }

    }
}

void setup()
{
    Serial.begin(115200);
    

    while (CAN_OK != CAN.begin(CAN_500KBPS,MCP_8MHz))//,MCP_8MHz
    {
        Serial.println("CAN BUS init Failed");
        delay(100);
    }
    Serial.println("CAN BUS Shield Init OK!");
delay(1000);// timeout
}


unsigned char stmp[8] = {0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00};   
void loop()
{   

 
  CAN.sendMsgBuf(0x018c0ef4, 1, 8, stmp);//... , 0 for standard ID and 1 for extended ID, ... , stmp is the data
  Serial.println("sent message");
  delay(100);// timeout
  recv();
}
I also have tapped with other arduino and I receieve ID as 0x18c0ef4. The address varies.
My battery does not reply to anything, neither it has a value which it will keep sending by default.
please help!
 

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Discussion Starter · #3 ·
@kennybobby Thank you for replying ,yes sir , they are using 29 bit addressing , speed in the sense you mean to say the delay(100) after sending CAN message ? My battery doesnt reply and seems dead ( doesnt reply anything)
 

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Discussion Starter · #4 ·
This code is an example for Hykon LIFEPO4 battery pack. This uses CAN2.0b Extended bit identifier (28 bit). The data bits are set to 0. Resulting CAN frames are sorted in accordance with their ID and processed accordingly. Bit rate is 500K bits per second. I used an Arduino UNO and an inexpensive CAN module similar to this can module
C:
#include <SPI.h>
#include <mcp_can.h>

const int spiCSPin = 9;

MCP_CAN CAN(spiCSPin);



void recv()
{
  unsigned char len = 0;
  unsigned char buf[8];
  unsigned char a,b,c,d,e,f,g,h;
  int a1,b1,c1,d1,e1,f1,g1,h1;
  int bit0,bit1,bit2,bit3,bit4,bit5,bit6,bit7;
  int stat,comm,temp_sens;
  int volt,curr,ofcell_cnt,obcell_cnt,temp_sens1,temp_sens2,temp_sens3,temp_sens4;


  //Serial.println("No message!");
  if(CAN_MSGAVAIL == CAN.checkReceive())
    {
        CAN.readMsgBuf(&len, buf);

        unsigned long canId = CAN.getCanId();

        //Serial.println("-----------------------------");
        //Serial.print("Data from ID: 0x");
        //Serial.println(canId, HEX);
if (canId == 25956084) //system information frame 1
{
        for(int i = 0; i<len; i++)
        {
            //Serial.print(buf[i]);
            //Serial.print("\t");
            a = buf[0]; //MSB V
            b = buf[1];// LSB V
            c = buf[2];// MSB I
            d = buf[3];// LSB I
            e = buf[4];//SOC
            f = buf[5];//SOH
            stat = buf[6];//Status
            h = buf[7];//reserved
         }
        a1 = (int)a;
        b1 = (int)b;
        c1 = (int)c;
        d1 = (int)d;
      volt = a1 << 8 | b1;
      curr = c1 << 8 | d1;
      Serial.println();
      Serial.print(",");Serial.print(volt);Serial.print(",");Serial.print(curr);
      Serial.print(",");Serial.print(e);Serial.print(",");Serial.print(f); 
      Serial.print(",");Serial.print(stat,BIN);

   bit4 = bitRead(stat,4);
   bit5 = bitRead(stat,5);
   bit6 = bitRead(stat,6);
   bit7 = bitRead(stat,7);       
   if (bit4 == 1)
   {
    Serial.print(",");Serial.print("SOC is present");
   }
   if (bit5 == 1)
   {
    Serial.print(",");Serial.print("SOH is present");
   }
   else if (bit4 == 0)
   {
    Serial.print(",");Serial.print("SOC not present");
   }
   else if (bit4 == 0)
   {
    Serial.print(",");Serial.print("SOH not present");
   }
  
   if( bit6 ==0 && bit7 == 0)
   {
    Serial.print(",");Serial.print("idle");
   }
    else if( bit6 ==0 && bit7 == 1)
   {
    Serial.print(",");Serial.print("charging");
   }
    else if( bit6 ==1 && bit7 == 0)
   {
    Serial.print(",");Serial.print("discharging");
   }
    else if( bit6 == 1  && bit7 == 1)
   {
    Serial.print(",");Serial.print("open");
   }
 }

 else if (canId == 25956085) //system information frame 2

 {
     for(int i = 0; i<len; i++)
        {
            //Serial.print(buf[i]);
            //Serial.print("\t");
            a = buf[0]; //MSB official cell count
            b = buf[1];// LSB official cell count
            c = buf[2];// MSB observed cell count
            d = buf[3];// LSB observed cell count
            e = buf[4];//official cascaded LTC
            f = buf[5];//observed cascaded LTC
            g = buf[6];//Number of temp sensors
            h = buf[7];//communication interface
         }
        a1 = (int)a;
        b1 = (int)b;
        c1 = (int)c;
        d1 = (int)d;
      ofcell_cnt = a1 << 8 | b1;
      ofcell_cnt = c1 << 8 | d1;
      //Serial.println();
      Serial.print(",");Serial.print(ofcell_cnt);Serial.print(",");Serial.print(ofcell_cnt);
      Serial.print(",");Serial.print(e);Serial.print(",");Serial.print(f); 
      Serial.print(",");Serial.print(g);Serial.print(","),Serial.print(h,BIN);
 }
   else if (canId == 25956090) //sensor information frame 1
   {
    for(int i = 0; i<len; i++)
        {
            //Serial.print(buf[i]);
            //Serial.print("\t");
            temp_sens = buf[0];//temperature sensors
            b = buf[1];// reserved
            c = buf[2];// reserved
            d = buf[3];// reserved
            e = buf[4];// MSB temp sensor 1
            f = buf[5];//LSB temp sensor 1
            g = buf[6];//MSB temp sensor 2
            h = buf[7];//LSB temp sensor 2
         }
        e1 = (int)e;
        f1 = (int)f;
        g1 = (int)g;
        h1 = (int)h;
      temp_sens1 = e1 << 8 | f1;
      temp_sens2 = g1 << 8 | h1;
      Serial.print(",");Serial.print(temp_sens,BIN);Serial.print(",");Serial.print(temp_sens1);
      Serial.print(",");Serial.print(temp_sens2); 

      bit3 = bitRead(temp_sens,3);
      bit4 = bitRead(temp_sens,4);
      bit5 = bitRead(temp_sens,5);
      bit6 = bitRead(temp_sens,6);

      if(bit3 == 1)
      {
        Serial.print(",");Serial.print("temp sens 4 is active");
      }
      else if(bit3 == 0)
      {
        Serial.print(",");Serial.print("temp sens 4 not active");
      }
            if(bit4 == 1)
      {
        Serial.print(",");Serial.print("temp sens 3 is active");
      }
      else if(bit4 == 0)
      {
        Serial.print(",");Serial.print("temp sens 3 not active");
      }
            if(bit5 == 1)
      {
        Serial.print(",");Serial.print("temp sens 2 is active");
      }
      else if(bit5 == 0)
      {
        Serial.print(",");Serial.print("temp sens 2 not active");
      }
            if(bit6 == 1)
      {
        Serial.print(",");Serial.print("temp sens 1 is active");
      }
      else if(bit6 == 0)
      {
        Serial.print(",");Serial.print("temp sens 1 not active");
      }
  }
 else if (canId == 25956091) //sensor information frame 2
  {
    for(int i = 0; i<len; i++)
        {
            //Serial.print(buf[i]);
            //Serial.print("\t");
            a = buf[0];//MSB temp sensor 3
            b = buf[1];//LSB temp sensor 3
            c = buf[2];//MSB temp sensor 4
            d = buf[3];//LSB temp sensor 4
            e = buf[4];// reserved
            f = buf[5];// reserved
            g = buf[6];// reserved
            h = buf[7];// reserved
         }
        a1 = (int)a;
        b1 = (int)b;
        c1 = (int)c;
        d1 = (int)d;
      temp_sens1 = a1 << 8 | b1;
      temp_sens2 = c1 << 8 | d1;
      //Serial.println();
      Serial.print(",");Serial.print(temp_sens3);Serial.print(",");Serial.print(temp_sens4);Serial.print(",");   
  }
  
  

      
       }
  
 }

void setup()
{
    Serial.begin(115200);
    

    while (CAN_OK != CAN.begin(CAN_500KBPS,MCP_8MHz))//,MCP_8MHz
    {
        Serial.println("CAN BUS init Failed");
        delay(100);
    }
   // Serial.println("CAN BUS Shield Init OK!");
Serial.println("Voltage,Current,SOC%,SOH%,SOC_SOH_STATUS,official_cell_cnt,observed_cell_cnt,official_LTC,observed_LTC,temp_sens_cnt,comm_interf,sensor_status,temp_sens1,temp_sens2,temp_sens3,temp_sens4");

}


unsigned char stmp[0] = {};   
void loop()
{   

 
  CAN.sendMsgBuf(0x018C0EF4, 1, 0, stmp);//give the address here... , 0 for standard ID and 1 for extended ID, ... , stmp is the data
  //Serial.println("sent message");
  //delay(100);// timeout
  recv();
  CAN.sendMsgBuf(0x018C0EF5, 1, 0, stmp);//give the address here... , 0 for standard ID and 1 for extended ID, ... , stmp is the data
  //Serial.println("sent message");
  //delay(100);// timeout
  recv();
  CAN.sendMsgBuf(0x018C0EFA, 1, 0, stmp);//give the address here... , 0 for standard ID and 1 for extended ID, ... , stmp is the data
  //Serial.println("sent message");
  //delay(100);// timeout
  recv();
  CAN.sendMsgBuf(0x018C0EFB, 1, 0, stmp);//give the address here... , 0 for standard ID and 1 for extended ID, ... , stmp is the data
  //Serial.println("sent message");
  //delay(100);// timeout
  recv();
}
 
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