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24FJ128GA010 - UART2 Tx problem

 
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tonymcc



Joined: 27 Jul 2010
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24FJ128GA010 - UART2 Tx problem
PostPosted: Thu Jul 21, 2011 3:38 am     Reply with quote

Hi,
I am using the above processor under IDE V4.119 with ICD-U64 V2.88. I am building a cut-down Modbus interface using UART2 and I am having difficulties in getting the Tx interrupt to operate - Rx is fine. I am happy that my 'surrounding' code is ok as I can get things operating fine using a direct fputc command in place of loading a Tx buffer. The relevant lumps of code are:
Code:
#INT_TBE2                     
void tx_isr()                 //interrupt fires when tx buffer is empty
{  if(t_next_in!=t_next_out)                    //is there still data to send
   {  fputc((tx_buffer[t_next_out] + 48),hart); //send next data
      t_next_out=(t_next_out+1) % BUFFER_SIZE;  //increment data out pointer, rolls round
   }
   else
      disable_interrupts(INT_TBE2);             //last data, stop sending
}

void txUART(unsigned int8 c)           //send data, in nibbles, to tx buffer
{  unsigned int8 restart;              //flag, true if buffer empty
   unsigned int8 ni;
   restart=t_next_in==t_next_out;      //load flag
   tx_buffer[t_next_in] = c;           //load nibble to buffer           
   ni = (t_next_in+1) % BUFFER_SIZE;   //increment data in point, rolls around
   while(ni==t_next_out);              //wait if buffer full
   t_next_in=ni;     
   if(restart)                         //if buffer is empty
      enable_interrupts(INT_TBE2);     //restart interrupt to send this data
}


I enable interrupts on entry to my main. I have checked that my tx_buffer is filling nicely but nothing appears from the UART. Any help would be appreciated.
Cheers,
Tony
Charlie U



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PostPosted: Thu Jul 21, 2011 8:53 am     Reply with quote

Hi Tony,

Another important bit of code is how you are setting up the uart and setting the #pin_select. Could you show us these as well?

Charlie
tonymcc



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24FJ128GA010 - UART2 Tx problem - response
PostPosted: Thu Jul 21, 2011 9:31 am     Reply with quote

Hi Charlie,

No problem. Code follows:
Code:
#include <24FJ128GA010.h>
//#device ICD=TRUE

#FUSES NOWDT                    //No Watch Dog Timer
#FUSES WPOSTS1                  //Watch Dog Timer PostScalar 1:1
#FUSES NOWINDIS                 //Watch Dog Timer in Window mode
#FUSES ICSP1                    //ICD uses PGC1/PGD1 pins
#FUSES NOCOE                    //Device will reset into operational mode
#FUSES DEBUG                    //Debug mode for use with ICD
#FUSES NOWRT                    //Program memory not write protected
#FUSES NOPROTECT                //Code not protected from reading
#FUSES NOJTAG                   //JTAG disabled
#FUSES NOPR                     //Pimary oscillaotr disabled
#FUSES NOOSCIO                  //OSC2 is clock output
#FUSES NOCKSFSM                 //Clock Switching is disabled, fail Safe clock monitor is disabled
#FUSES FRC                      //Internal Fast RC Oscillator
#FUSES NOIESO                   //Internal External Switch Over mode disabled

#use delay(clock=8000000)
#use RS232 (UART2, baud=9600, stream=hart)

I believe that the pin assignments come automatically by selecting UART2. UART2 operates happily using fputc(data,hart) in normal program run, but no luck in interrupt.
Thanks
Tony
Charlie U



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PostPosted: Thu Jul 21, 2011 8:12 pm     Reply with quote

Hi Tony,

I'm not certain how you managed to get the uart to work without declaring a pin. I don't recall that there is a default pin assigned to the uarts on this part. We are using the PIC24FJ256GA106 and 110 versions and both need to have the uarts specifically assigned to a pin.

Which pins are you using for the uarts rx and tx?

Charlie
tonymcc



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PostPosted: Fri Jul 22, 2011 2:24 am     Reply with quote

Hi Charlie,

Thanks for the response. I am using pins F4=Rx F5=Tx, the designated peripheral pins for UART2. The data sheet, in Section 9 - I/O Ports states
Quote:
A parallel I/O port that shares a pin with a peripheral is,
in general, subservient to the peripheral
Anyway, I tried the pin assignment in the #use RS232 statement, but with no success. As I stated before, UART2 Tx is fine using fputc in 'straight' code. I also know that my Tx buffer is building satisfactorily, it's just not being emptied during a Tx interrupt.

Because my message traffic is small I could probably get away with Tx in straight code but it isn't very elegant and I would really like to know why the Tx interrupt fails to work.

Cheers,
Tony
PS what goes on under water in the Great Lakes?
FvM



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PostPosted: Fri Jul 22, 2011 7:33 am     Reply with quote

Quote:
I'm not certain how you managed to get the uart to work without declaring a pin. I don't recall that there is a default pin assigned to the uarts on this part. We are using the PIC24FJ256GA106 and 110 versions and both need to have the uarts specifically assigned to a pin.

24FxxxGA010 uses fixed UART pins.
Quote:
I also know that my Tx buffer is building satisfactorily, it's just not being emptied during a Tx interrupt.

I won't guess about the reason without seeing a complete code example.
Charlie U



Joined: 09 Sep 2003
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PostPosted: Fri Jul 22, 2011 8:35 am     Reply with quote

To all,

"Whoopsy!!"

If you look closely I have been referring to the PIC24FJ256GA1xx parts, not the PIC24FJ128GA0xx parts. There is a major difference in that the pins of the 1xx parts are configurable while the 0xx parts are not. My mistake.

What goes on under water in the Great Lakes is a scuba diving.

http://www.wrecksandreefs.com/dunderbe.htm
tonymcc



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Posts: 15
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PostPosted: Fri Jul 22, 2011 9:37 am     Reply with quote

Hi Charlie and FvM,

I am sorry about the code fragments and I realise how difficult it is for someone unfamiliar with the code to make a comment. It will not happen again and I shall only include complete, compilable code. Consider my knuckles rapped!

I have stuck together the relevant bits from my main application and proved that it runs, and fails, as I have described above.
Code:
/*
--------------------------------------------------------------------------------------------
Developer      -  Tony McCormick   
Start Date     -  22nd July 2011
HEADER CODE    -                             
PROCESSOR      -  24FJ128GA010
Description    -  Main file - serial routine, debug format
--------------------------------------------------------------------------------------------
Development history for main.c

--------------------------------------------------------------------------------------------
Issue P1       -  Started 22nd July 2011

--------------------------------------------------------------------------------------------
Requirements   - 

*/

//------------------------------------------------------------------------------------------
#include <24FJ128GA010.h>
#device ICD=TRUE

#FUSES NOWDT                    //No Watch Dog Timer
#FUSES WPOSTS1                  //Watch Dog Timer PostScalar 1:1
#FUSES NOWINDIS                 //Watch Dog Timer in Window mode
#FUSES ICSP1                    //ICD uses PGC1/PGD1 pins
#FUSES NOCOE                    //Device will reset into operational mode
#FUSES DEBUG                    //Debug mode for use with ICD
#FUSES NOWRT                    //Program memory not write protected
#FUSES NOPROTECT                //Code not protected from reading
#FUSES NOJTAG                   //JTAG disabled
#FUSES NOPR                     //Pimary oscillaotr disabled
#FUSES NOOSCIO                  //OSC2 is clock output
#FUSES NOCKSFSM                 //Clock Switching is disabled, fail Safe clock monitor is disabled
#FUSES FRC                      //Internal Fast RC Oscillator
#FUSES NOIESO                   //Internal External Switch Over mode disabled

#use delay(clock=8000000)
#use RS232 (UART2, baud=9600, xmit=PIN_F5, rcv=PIN_F4, stream=hart)

#define BUFFER_SIZE     0x40  //general size of receive and transmit buffers
#define MB_03           0x03  //Command 03, read registers
#define MB_16           0x10  //Command 16, write registers
#define bad_comm        0x01  //Error message, bad command code
#define bad_address     0x02  //Error message, bad address or address range
#define bad_reg_num     0x03  //Error message, bad number of registers
#define bad_crc         0x07  //Error message, bad internal processing of registers

//Variables associated with HART communciation

unsigned int8  ext_buffer[BUFFER_SIZE];      //raw ASCII receive buffer
unsigned int8  tx_buffer[BUFFER_SIZE];       //buffer for built response
unsigned int16 buffer_dynamic[BUFFER_SIZE];  //dynamic variable buffer
unsigned int16 received_crc;                 //received CRC
unsigned int8  new_command;                  //received command
unsigned int16 new_address;                  //received address
unsigned int16 new_registers;                //number of registers received
unsigned int8  new_bytes;                    //number of bytest received
unsigned int16 tx_crc;                       //calcualted crc for tx message
unsigned int16 norm_address;                 //address normalised to either 20000 or 30000
unsigned int8  start_bit;                    //dummy to receive start bit
unsigned int8  message_received;             //true if new message

unsigned int8  t_next_out;                   //tx buffer out pointer
unsigned int8  t_next_in;                    //tx buffer in pointer
unsigned int8  r_next_out;                   //rx buffer out pointer
unsigned int8  r_next_in;                    //rx buffer in pointer
unsigned int8  tx_index;                     //tx buffer index
unsigned int8  temp_data;
unsigned int8  temp_byte;

unsigned int8  soft_switch;                  //various hart commands as 8 bit switches
unsigned int8  hart_write_enable;            //true to allow writes from hart

#INT_RDA2
void rx_isr()                 //looks at serial port and interrupts on data available
{  unsigned int8 t;
   ext_buffer[r_next_in]=(fgetc(hart)-48);   //moves data into next available posn in buffer
   t = r_next_in;                            //saves current buffer data in pointer
   r_next_in=(r_next_in+1) % BUFFER_SIZE;    //increments data in pointer, rolls roound
   if(r_next_in==r_next_out)                 //check if buffer full
     r_next_in=t;                            // Buffer full !!
}

#INT_TBE2                     
void tx_isr()                 //interrupt fires when tx buffer is empty
{  if(t_next_in!=t_next_out)                    //is there still data to send
   {  fputc((tx_buffer[t_next_out] + 48),hart); //send next data
      t_next_out=(t_next_out+1) % BUFFER_SIZE;  //increment data out pointer, rolls round
   }
   else
      disable_interrupts(INT_TBE2);             //last data, stop sending
}

void clear_ext_buffer(void)         //clear receive ASCII buffer
{  unsigned int8 i;
   for(i=0;i<BUFFER_SIZE;i++)
      ext_buffer[i] = 0;
}

void clear_buffer_dynamic(void)     //clear dyanmic variable buffer
{  unsigned int8 i;
   for(i=0;i<BUFFER_SIZE;i++)
      buffer_dynamic[i] = 0;
}

void clear_tx_buffer(void)          //clear tx byte buffer
{  unsigned int8 i;
   for(i=0;i<BUFFER_SIZE;i++)
      tx_buffer[i] = 0;
}

void clear_last_data(void)                //clear last address and data length
{  new_command = 0;
   new_address = 0;
   new_registers = 0;
   new_bytes = 0;
   received_crc = 0;
   tx_crc = 0;
   t_next_out = 0;
   t_next_in = 0;
   r_next_out = 0;
   r_next_in = 0;   
   tx_index = 0;
   clear_ext_buffer();
   clear_tx_buffer();
   message_received = 0;
}   

void load_buffer_dynamic(void)      //test word
{  buffer_dynamic[0] = 0x0000;      //first configuration parameters
   buffer_dynamic[1] = 0x1001;
   buffer_dynamic[2] = 0x2002;
   buffer_dynamic[3] = 0x3003;
   buffer_dynamic[4] = 0x4004;
   buffer_dynamic[5] = 0x5005;
   buffer_dynamic[6] = 0x6006;   
   buffer_dynamic[7] = 0x7007;
   buffer_dynamic[8] = 0x0808;
   buffer_dynamic[9] = 0x0909;
   buffer_dynamic[10] = 0x0A0A;
   buffer_dynamic[11] = 0x0B0B;
   buffer_dynamic[12] = 0x0C0C;
   buffer_dynamic[13] = 0x0D0D;
   buffer_dynamic[14] = 0x0E0E;   
   buffer_dynamic[15] = 0x0F0F;
   buffer_dynamic[16] = 0x1010;
   buffer_dynamic[17] = 0x1111;   
   buffer_dynamic[18] = 0x1212;
   buffer_dynamic[19] = 0x1313;

   buffer_dynamic[30] = 0x3030;     //then dynamic status bytes
   buffer_dynamic[31] = 0x3131;
   buffer_dynamic[32] = 0x3232;
   buffer_dynamic[33] = 0x3333;   
   buffer_dynamic[34] = 0x3434;
   
   buffer_dynamic[40] = 1234;       //then dynamic variables
   buffer_dynamic[41] = 5678;
   buffer_dynamic[42] = 8765;
   buffer_dynamic[43] = 4321;
   buffer_dynamic[44] = 0xF5FA;
   
   clear_last_data();
}

#define bkbhit (r_next_in != r_next_out)

unsigned int8 get_rx_nibble(void)
{  unsigned int8 c;
   while(!bkbhit) ;
   c = ext_buffer[r_next_out];
   r_next_out = (r_next_out+1) % BUFFER_SIZE;
   return(c);
}

unsigned int8 make_rx_byte(void)
{  unsigned int8 b;   
   unsigned int8 msb;
   unsigned int8 lsb;
   msb = get_rx_nibble();
   if(msb>9)                           //hex adjust if required
      msb = msb - 7;
   lsb = get_rx_nibble();          //get lower nibble
   if(lsb>9)                           //hex adjust if required
      lsb = lsb - 7;     
   b = msb<<4 | lsb;
   return b;
}

unsigned int16 make_word(void)
{  unsigned int16 w;
   w =(unsigned int16)make_rx_byte()<<8 | make_rx_byte();
   return w;
}
void get_norm_address(void)
{  if(new_address < 30000)                         //get local buffer offset from address
      norm_address = (new_address - 20000);        //normalise address of engineering/config data
   else
      norm_address = (new_address - 30000) + 40;   //normalise address of dynamic variables
}

void update_local_to_hart(void)                 //load latest modified buffer from HART

}

void get_message(void)                             //translate message from Rx buffer
{  unsigned int8 i;
   if((r_next_out == 0) && bkbhit)                 //wait for first character
   {  start_bit = make_rx_byte();                  //get start bit
      new_command = make_rx_byte();                //get new command 3 or 16
      new_address = make_word();                   //get data start address
      new_registers = make_word();                 //get number of registers to be processed
      get_norm_address();                          //get local buffer offset for address
      if(new_command == MB_16)                     //check for write command
      {  if(bit_test(soft_switch,hart_write_enable))           //look for write enabled but not remote setpoint
         {  new_bytes = make_rx_byte();                        //get bytes to be transferred
            for(i=0; i<new_registers;++i)                      //setup to write new data to buffer               
               buffer_dynamic[i + norm_address] = make_word(); //write to local buffer
            update_local_to_hart();                //pull all data from buffer to variables
         }
      }     
      else
         new_bytes = 0;                            //3 command so no byte count taken
      received_crc = make_word();                  //get received CRC
      message_received = 1;                        //set a message received flag
   }   
}

void txUART(unsigned int8 c)           //send data, in nibbles, to tx buffer
{  unsigned int8 restart;              //flag, true if buffer empty
   unsigned int8 ni;
   restart=t_next_in==t_next_out;      //load flag
   tx_buffer[t_next_in] = c;           //load nibble to buffer           
   ni = (t_next_in+1) % BUFFER_SIZE;   //increment data in point, rolls around
   while(ni==t_next_out);              //wait if buffer full
   t_next_in=ni;     
   if(restart)                         //if buffer is empty
      enable_interrupts(INT_TBE2);     //restart interrupt to send this data

// fputc((c + 48),hart);
}

void split_byte(unsigned int8 t_data)     //split a data byte and send or buffer
{  temp_data = (t_data & 0xF0)>>4;        //break out and shift upper nibble
   if(temp_data > 9)                      //adjust to hex
      temp_data = temp_data + 7;          //adjust as appropriate
   txUART(temp_data);                     //send or buffer data
   temp_data = t_data & 0x0F;             //break out lower nibble
   if(temp_data > 9)                      //adjust to hex
      temp_data = temp_data + 7;          //adjust as appropriate
   txUART(temp_data);                     //send or buffer data
}

void send_16_response(void)               //respond to an 16 command
{  tx_index = 0;                          //set buffer at zero
   split_byte(1);                         //load start bit
   split_byte(new_command);               //command reflected back
   temp_byte = make8(new_address,1);      //get upper byte of address
   split_byte(temp_byte);                 //send as two nibbles
   temp_byte = make8(new_address,0);      //get lower byte of address
   split_byte(temp_byte);                 //send as two nibbles
   temp_byte = make8(new_registers,1);    //get upper byte of registers written
   split_byte(temp_byte);                 //send as two nibbles
   temp_byte = make8(new_registers,0);    //get lower byte of registers written
   split_byte(temp_byte);                 //send as two nibbles
   tx_crc = 1234;                         //dummy crc
   temp_byte = make8(tx_crc,1);           //get upper byte
   split_byte(temp_byte);                 //send as two nibbles
   temp_byte = make8(tx_crc,0);           //get lower byte
   split_byte(temp_byte);                 //send as two nibbles
   clear_last_data();
}   

void send_03_response(void)               //respond to an 03 command with data
{  unsigned int8 i;
   split_byte(1);                         //load start bit
   split_byte(new_command);               //command reflected back
   split_byte(new_registers * 2);         //response byte count
   get_norm_address();                    //get local buffer offset from Modbus address
   for(i=0;i<(new_registers);i++)                  //read from local dynamic buffer
   {  temp_byte = make8(buffer_dynamic[i + norm_address],1);   //send msb first
      split_byte(temp_byte);
      temp_byte = make8(buffer_dynamic[i + norm_address],0);   //then lsb
      split_byte(temp_byte);
   }
   tx_crc = 1234;                         //dummy crc
   temp_byte = make8(tx_crc,1);           //get upper byte
   split_byte(temp_byte);                 //send as two nibbles
   temp_byte = make8(tx_crc,0);           //get lower byte
   split_byte(temp_byte);                 //send as two nibbles
   txUART('\r'-48);                       //CR
   txUART ('\n'-48);                      //LF
   while(t_next_in!=t_next_out);    //holds buffer and gives time for interrupt
   clear_last_data();
}

void handle_serial(void)            //get message and respond
{  get_message();                   //get new request
   if(message_received)
   {  if(new_command == 3)             //filter for response
         send_03_response();           //process read request
      if(new_command == 16)
         send_16_response();           //process write request
   }
}     

void io_initialisation(void)
{  load_buffer_dynamic();
   enable_interrupts(INT_RDA2);
   enable_interrupts(INT_RDA2);
   enable_interrupts(INTR_GLOBAL);   
}

void main()
{  io_initialisation();
   do
   {  handle_serial();
   }
   while(true);
}
 
   
//---------------------------------------------------------------------------------------------------------------
//---------------------------------------------------------------------------------------------------------------


I am firing a message 0103753000040A5E from Hyperterminal to trigger an expected response of 01030804D2162E223D10E104D2 i.e. a Modbus-ish request for 4 registers and then the registers returned with dummy data from load_buffer_dynamic().

You can see in txUART that I have a commented out fputc statement that, when replacing the buffer filling code, will transmit satisfactorily. Conversely, if I replace the fputc statement with the buffer filling code and check the tx_buffer, I find it correctly filled but nothing transmitted. I do note that t_next_out = 1 and t_next_in = 0x1C at this point.

I do hope that it is clear what I am trying to achieve. Do have a good weekend, especially the scuba diving, although it sounds cold in the Great Lakes.
Cheers,
Tony
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