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SPI 1 wire devices

 
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uhohrobbo
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SPI 1 wire devices
PostPosted: Fri Aug 05, 2005 4:19 am     Reply with quote

Hey,

I know that CCS C supports 2 and 3 wire SPI devices. Has anyone managed to get a 1 wire (or iButton) device to work with a non-1wire device (i.e. PIC18F248)?

Cheers
Douglas Kennedy



Joined: 07 Sep 2003
Posts: 755
Location: Florida

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PostPosted: Fri Aug 05, 2005 7:52 am     Reply with quote

Maybe you are asking can a PIC device act as a slave on a Dallas one wire (DOW) system.
Here is code I wrote a while back
The PIC takes on a DOW 8 byte unique identity via dev_id[8] it sends to a master ( there is CCS library code for a PIC to be a Master for the DOW see touch.c etc) upon a reset. The slave drops out if it is not being addressed
The reset pulses are triggered by a RC 33k 10nf that trips the interrupt on B0 the DOW line is driven by the PIC using the pin TOUCH_PIN
There is some reference to tokens ("T6063") where the pic would act as a DOW interface to say a T6963 LCD controller accepting data from a DOW master and displaying it on an LCD screen

The code is for the 16F84 so watch out for the register specific assignments.



Code:
///         drivers for dallas slave device emulation ////////////
////                                                  ///////////
////        electrical interface                      //////////
////        TOUCH_PIN should be open drain pulled up via 4.7K
////                  to avoid loading dow when device id off
/////       a high on the TOUCH_PIN        switches the 2n7000 on  ////////
/////       holding  cap 10nf at ground                              //////
////        a low on the TOUCH_PIN        switches the 2n7000 off  ////////
////        causing the 10nf cap to charge via R 33k               ////////
////        after 10*nf*33k or 330us pin B0 is high                ////////
////        any shorter time the voltage will not have risen enough   /////
////        the next high on the dow (end of reset pulse )            /////
////        the 2n7000 conducts disharging the 10nf cap              //////
////        In other words B0 goes from H to L on the rising edge at //////
////        completion of the reset pulse                            //////
////        diag                                                     //////
////                    | Vdd  +5V                                   //////
////                    |                                            //////
////                    >                                            //////
////                  R <  33K                                       //////
////                    >                                            //////
////                    |                                            //////
////                    |----------------------------->B0            //////
////                    |-------__| D                                /////
////                    |         |_G________________TOUCHPIN        /////
////                    |       __|                  |               /////
////                    |       | | S 2n7000         |               /////
////                    |       |                    |               /////
///                 C =====10nf |                   --- 5.6v         /////
////                    |       |                    ^  zener        /////
////                    |       |                    |               /////
////                   ^^^     ^^^  Vss (Gnd)       ^^^              /////
////                                                                 /////




//    major code needs to set these

//   #define TOUCH_PIN  PIN_XX

//byte const dev_id[8]={0xFE,0x00,0x24,0xC6,0x50,0x00,0x00,0x97};

int dow_status;
#define slave_ready 1
#define slave_busy  2
#define master_ready 3
#define slave_not_ready 4
#define PCLATH 0x0A
#define PCL 0x02
#define INTF 1
//#define INTCON 0x0B
#define INTE 4
///////////////////////////////PROTOCOL /////////////////////////////////////
// slave  fills transmit buff xmit_buff and sets dow_status to slave_ready
// if slave is ready master reads '{' data in buff '}' Ex {25C65} or{T6963}
// if slave is not ready master reads '!' and polls again
// if slave is busy processing a previous command
//    an interrupt may cause it to hang
// Ex master interrupts a read of a previous command in progress
// leaving slave waiting for write slots
//    a normal isr path would return the slave to the place it is reading
//    only now the master has a new command probably causing the slave to hang
// to avoid returning to the point of interrupt a PC of 00 is jammed on the stack
// causing a complete CPU reset in otherwords a reboot of the slave
//
// when slave is busy doing things other than processing a master command
// ( Ex. monitoring the key board ) it sets the status to slave_not_ready
// the isr will send '!' back to master during match_rom polls allowing master
// to wait and repoll with a match_rom
// If master suspects the slave is hung a search_rom will reboot the slave
//







byte dow_read_byte() {
/// master goes low for less than 15us
/// after 30 us from beginning  slave samples
/// if high  we have 1 if low  we have zero

  byte i,data;



   for(i=1;i<=8;++i) {

     while (input(TOUCH_PIN) ); // wait till line goes low

     // line is now low master will either release for a 1 or keep low for a 0

     delay_us(30);                   // sample point
     shift_right(&data,1,input(TOUCH_PIN));

     while(!input(TOUCH_PIN));      // wait till line is high

      }


return(data);
}


byte dow_write_byte(byte data) {
/// master goes low for less than 15us
/// immediately  slave goes low for an additional 15us to write 1
/// otherwise we allow line to float high
/// master samples  within 5us of bringing the line low
   byte i;

   for(i=1;i<=8;++i)
  {
     while(input(TOUCH_PIN)); // wait for master to go low

     if(shift_right(&data,1,0)) { output_float(TOUCH_PIN); }

     else {

          output_low(TOUCH_PIN);


          }
     delay_us(15);
     output_float(TOUCH_PIN);
     delay_us(40);

   }
   return(TRUE);
}

#INLINE
 void dow_presence() {

// master held line low for a least 240us and then goes high for 20 us
// slave sends presence pulse of a low of 100us

    while(!input(TOUCH_PIN)); //wait until line is high


    delay_us(20);
    // presence
    output_low(TOUCH_PIN);
    delay_us(100);
    output_float(TOUCH_PIN);

    while(!input(TOUCH_PIN)); // wait for other devices to finish presence pulse


}

#INLINE
byte dow_search_rom()
{
 byte i,j,this_byte;
 short int this_bit;
// master has sent an 0xF0 search rom command
// master sends two read time slots
// we the slave send our true bit and then its inverse
// master then sends a select bit and if it matches we stay online
// for another cycle otherwise we go offline and wait for a reset pulse

for(j=0;j<=7;j++)
 {

 this_byte=dev_id[j];

 for(i=1;i<=8;++i)
    {

    this_bit=shift_right(&this_byte,1,0); // note protocol ships LSbit first

   // send true bit

   // wait for low

     while (input(TOUCH_PIN)) ;

   // we now are seeing low
     if(this_bit) {
       output_float(TOUCH_PIN);

     } else {
       output_low(TOUCH_PIN);

     }
     //delay_us(15);
     delay_us(20);
     output_float(TOUCH_PIN);

     while(!input(TOUCH_PIN)); // wait until another device (if any) finishes writing 1

// send inverse bit

// wait for low

     while (input(TOUCH_PIN)) ;

     if(!this_bit) {
       output_float(TOUCH_PIN);

     } else {
       output_low(TOUCH_PIN);

     }
     //delay_us(15);
     delay_us(20);
     output_float(TOUCH_PIN);

   while(!input(TOUCH_PIN)); // wait until another device (if any) finishes writing 1

// now see if master wants us if it does then it will write our bit

// read a bit
  // wait for low

     while (input(TOUCH_PIN)) ;

     delay_us(20);                   // sample point

     if(this_bit!=input(TOUCH_PIN)) return(FALSE);


    while(!input(TOUCH_PIN) );          // wait till line goes high

   }//  i loop
}// j loop

return(TRUE);
}
#INLINE
byte dow_match_rom()
{
 byte i,j,this_byte;
 short int this_bit;
// master has sent an 0x55 match rom command
// master then sends a select bit and if it matches we stay online
// for another cycle otherwise we go offline and wait for a reset pulse



for (j=0;j<=7;j++)
    {
    this_byte=dev_id[j];
 for(i=1;i<=8;++i)
    {

    this_bit=shift_right(&this_byte,1,0); // note rs232 ships LSBit first



// read a bit
  // wait for low

     while (input(TOUCH_PIN)) ;

     delay_us(20);                   // sample point

     if(this_bit!=input(TOUCH_PIN)) return (FALSE);

     while(!input(TOUCH_PIN));      // wait till line is high


   }// of i loop
}// of j loop
return(TRUE);
}


int compcrc(char * string, int nbytes)
{
int crc,i,count;
char input;
crc=0;
 for (i=0;i<nbytes;i++){
 input=*(string+i);
#asm
movlw 8
movwf count
/* need to xor bit 0 of crc with next bit of input */
crc_loop:
movf crc,w
rrf input,f   // rot right and save and  next bit is in carry
btfsc status,carry
// need to know if xor result is a one or zero
// if carry is 0 then xor with zero = value of crc bit 0
// else carry is 1    xor with one = comp of crc bit 0
goto cbit_1
goto cbit_0

cbit_1:
// carry=input was 1
btfss crc,0
goto xor_bit1 // was 0 so complement to 1
goto xor_bit0 // was 1 so complement to 0

cbit_0:
// carry=input was 0

btfss crc,0
goto xor_bit0 // was 0
goto xor_bit1 // was 1

xor_bit1:
xorlw 0x18   // xors bits 4 and 5
movwf crc
rrf crc,f
bsf crc,7
goto loop_test

xor_bit0:
movwf crc
rrf crc,f
bcf crc,7

loop_test:
decfsz count,f
goto crc_loop

#endasm
}
return(crc);
}

#inline
void abort()
{
#asm
bcf INTCON,INTE    /// turn off EXT_INT
bcf INTCON,INTF    /// Clear the flag to avoid a repeat
clrf PCLATH       ///  clear high bits of progran counter
clrf PCL          ///  clear the low bits CPU will now restart
#endasm
}

#INT_EXT
void ext_int_isr()
{
byte cmd,i;

if (dow_status==slave_busy)  abort(); /// not expecting an interrupt
                                      /// master will have to reset again
                                      /// after pausing to allow us to re-init
                                      /// this clears up any glitches

dow_presence();
cmd=dow_read_byte();


if (cmd==0xF0) { //search rom
//------------------------------------------------------------------------

//-------------------------------------------------------------------------
               if (!dow_search_rom()) goto quit;
                if(dow_status==slave_not_ready) abort(); // slave was hung up
                goto quit; // we are selected but will wait for a 0x55
               }

if (cmd==0x55){ // match rom

                if (!dow_match_rom()) goto quit;

               // we are now selected and wait for master to read

                if (dow_status==slave_ready)
      {
#ifdef LED1
                output_high(LED1);
#endif
                dow_write_byte('{');
                // send out id sentence of Eg.T6963
                for(i=0;i<=7;i++)
                   {
                    if (dev_name[i]==0) break; // null terminated
                   dow_write_byte(dev_name[i]);
                   }
      dow_write_byte('}');
#ifdef BUFF_SIZE
                for(i=0;i<BUFF_SIZE;i++) dow_write_byte(xmit_buff[i]);
#endif

#ifdef LED1
                output_low(LED1);
#endif
                dow_status=master_ready; // master next will send commands
      }
                else dow_write_byte('!');// slave is not ready master will have to wait
                                         // for slave to assert status slave_ready
                                         // or send FO to reset
               }

quit:
output_float(TOUCH_PIN);
}
Douglas Kennedy



Joined: 07 Sep 2003
Posts: 755
Location: Florida

View user's profile Send private message AIM Address

PostPosted: Fri Aug 05, 2005 7:53 am     Reply with quote

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