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Need Help about C program of RC5.

 
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sarmad_101



Joined: 17 Jun 2010
Posts: 12

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Need Help about C program of RC5.
PostPosted: Thu Jun 17, 2010 12:23 am     Reply with quote

This Program is written for the PIC12F629 in CCS v4.012 and the I/O Pin used in this program is GPIO0=TX, GPIO1=RX, GPIO2=IR. If i want to run it on 18F252. What changes that i have to make to run on it. I/O pins and any other thing.
Want to change Tx to Pin # 17 and Rx to Pin # 18 of PIC18F232 and want to put IR on Pin # 15.

Please help me out. I found this program on the EDA board Forum and the post is really old and author is not replying on the post.
Code:

#include <12F629.h>

#FUSES NOWDT                    //No Watch Dog Timer
#FUSES INTRC_IO                 //Internal RC Osc, no CLKOUT
#FUSES NOCPD                    //No EE protection
#FUSES NOPROTECT                //Code not protected from reading
#FUSES NOMCLR                   //Master Clear pin used for I/O
#FUSES PUT                      //Power Up Timer
#FUSES NOBROWNOUT               //No brownout reset

#use delay(clock=4000000)
#use rs232(baud=9600,parity=N,xmit=PIN_A0,rcv=PIN_A1,bits=8)

typedef unsigned int8 U8;
typedef unsigned int16 U16;
typedef          int1 BIT;
#define VOID void

#pragma use fast_io (A)

#pragma byte GPIO = 0x05
#pragma byte TMR0 = 0x01
#pragma byte INTCON = 0x0B
#pragma byte PIR1 = 0x0C
#pragma bit TMR1F = PIR1.0
#pragma byte IOC = 0x96

#pragma bit IR_IOC = IOC.2
#pragma bit IR_PIN = GPIO.2
#pragma bit IR_INT = INTCON.0
#define IR_TIME TMR0

#define enable_INT_IR() IR_IOC = 1
#define clr_INT_IR() IR_PIN = 1; IR_INT = 0
#define is_INT_IR() (IR_INT != 0)

#define is_SIGNAL_IR() (IR_PIN==0)
#define is_IDLE_IR() (IR_PIN==1)
#define set_TIME_IR(tm) IR_TIME=tm
#define get_TIME_IR() IR_TIME
#define nIRtimeBase 32 // 32uS
#define nIRtolerance 30 // +/- 30%
#define defIRtime 889 // 889uS RC-5/RC-5X 1 physical (half logic) bit time
#define minIRtime ((((((100-nIRtolerance)*defIRtime)*10)/(nIRtimeBase*100))+5)/10)
#define maxIRtime ((((((100+nIRtolerance)*defIRtime)*10)/(nIRtimeBase*100))+5)/10)

   U8 gIRstat; // IR state number
enum { stIR_NONE=0, stIR_IDLE, stIR_SIGNAL };
   U16 gIRdata; // IR data (14 logic bits)
#define add_Data_0_IR()  gIRdata <<= 1
#define add_Data_1_IR()  gIRdata <<= 1; gIRdata |= 1
   U8 gIRcount; // IR bit counter
#define    nIRcount   (14*2)   // 14 logic bits = 28 physical bits
//-U8 gIRruntime; // IR running time (counting only if gIRstat != stIR_NONE)
#define    nIRruntime 30000 // 25mS: 14*(889+889)=24.892mS
//#define timeout_RUNTIME_IR() (get_timer1() > nIRruntime)
#define timeout_RUNTIME_IR() (TMR1F != 0)
#define set_RUNTIME_IR(tm) set_timer1(65536UL-(tm)); TMR1F = 0
   BIT bIRphysicalBitCount; // 0:1st physical bit, 1:2nd physical bit
   BIT bIRphysicalBitData;   // last physical bit data
   BIT bIRnewHit; // 1:new IR code is received

VOID InitIR( VOID ) // initial IR engine
{
  gIRstat = stIR_NONE;
  bIRnewHit = FALSE;
  // hardware dependent: set correct snapped interrupt edge setting
  enable_INT_IR();
  clr_INT_IR();
}

VOID TimeoutIR( VOID ) // check IR running timeout
{
   if( gIRstat != stIR_NONE) {
      if( timeout_RUNTIME_IR() ) { // timeout
         InitIR();
      }
   }
}

VOID PollIR( VOID ) // put it in ISR (trigger when IR_PIN edge is changed)
{
   U8 mIRtime;

   mIRtime = get_TIME_IR(); set_TIME_IR(0);
   switch( gIRstat ) {
      case stIR_NONE:
           if( is_SIGNAL_IR() ) { // 1st logic bit (start bit) is 1 (01)
              // IR engine is starting
              gIRstat++; //  gIRstat =  stIR_IDLE;
//----------- gIRruntime = 0; // IR running time is counting
              set_RUNTIME_IR(nIRruntime); // IR running time is counting
              gIRdata = 0; // it is not necessary if mask unused bits before using it
              gIRcount = 1; // as hit 1st physical bit
              bIRphysicalBitCount = 1; // ready to process 2nd physical bit
              return;
           }
           return;
      case stIR_IDLE: // now is IR.IDLE signal (process last SIGNAL)
           if( mIRtime > 2*maxIRtime ) { // time > 2t
              goto _error_IDLE_PollIR; // last signal too long
           }
           if( mIRtime < 1*minIRtime ) { // time < 1t
              goto _error_IDLE_PollIR; // last signal too short
           }
           bIRphysicalBitData = 0; // now is IDLE
           if( bIRphysicalBitCount == 0 ) { // now is 1st physical bit (1x)
              if( mIRtime > 2*minIRtime ) { // time > 2t
                 goto _error_IDLE_PollIR; // bad code, bi-phase no this (11) combination
              }
              bIRphysicalBitCount = 1; // ready to process 2nd physical bit
           } else { // now is 2nd physical bit (01)
              add_Data_1_IR(); // add logic bit data 1 (01)
              if( mIRtime < 2*minIRtime ) { // time < 2t
                 bIRphysicalBitCount = 0; // ready to process 1st physical bit
              } else { // time >= 2t, it is 011 (extra physical bit)
                 gIRcount++; // add extra physical bit count
                 bIRphysicalBitCount = 1; // ready to process 2nd physical bit
              }
           }
           break;   
      case stIR_SIGNAL: // now is IR.SIGNAL signal (process last IDLE)
           if( mIRtime > 2*maxIRtime ) { // time > 2t
              goto _error_SIGNAL_PollIR; // last signal too long
           }
           if( mIRtime < 1*minIRtime ) { // time < 1t
              goto _error_SIGNAL_PollIR; // last signal too short
           }
           bIRphysicalBitData = 1; // now is SIGNAL
           if( bIRphysicalBitCount == 0 ) { // now is 1st physical bit (0x)
              if( mIRtime > 2*minIRtime ) { // time > 2t
                 goto _error_SIGNAL_PollIR; // bad code, bi-phase no this (00) combination
              }
              bIRphysicalBitCount = 1; // ready to process 2nd physical bit
          } else { // now is 2nd physical bit (10)
              add_Data_0_IR(); // add logic bit data 0 (10)
              if( mIRtime < 2*minIRtime ) { // time < 2t
                 bIRphysicalBitCount = 0; // ready to process 1st physical bit
              } else { // time >= 2t, it is 100 (extra physical bit)
                 gIRcount++; // add extra physical bit count
                 bIRphysicalBitCount = 1; // ready to process 2nd physical bit
              }
          }
          break;   
   }

   // ready to process next physical bit
   gIRcount++;
   if( gIRcount >= nIRcount ) { // the last physical bit
      goto _complete_check_PollIR;
   }
   if( gIRcount == nIRcount-1 ) { // the 27th physical bit
      if(  bIRphysicalBitData == 0 ) { // now is 0 as complete, due to no more new edge will be changed
         bIRphysicalBitCount = 0; // as ready to process 1st physical bit
         add_Data_0_IR(); // add logic bit data 0 (10)
         goto _complete_check_PollIR;
      }
   }
   // the 1~27th physical bit
   gIRstat = bIRphysicalBitData == 0 ? stIR_SIGNAL : stIR_IDLE; // swap state
   // hardware dependent: toggle snapped interrupt edge setting
//-clr_INT_IR();
   return;

_complete_check_PollIR:
   if( bIRphysicalBitCount == 0 ) { // correct, no any pending physical bit
      InitIR();
      // ex: check Start Bit, process Toggle(Repeat) Bit, translate Address/Command Bits....
      bIRnewHit = TRUE;
      return;
   }
_error_IDLE_PollIR:
_error_SIGNAL_PollIR:
   InitIR();
   return;
}

void main()
{
   port_a_pullups(0xFF);
   setup_timer_0(RTCC_INTERNAL|RTCC_DIV_32);
   setup_timer_1(T1_INTERNAL|T1_DIV_BY_1);

   // TODO: USER CODE!!
   printf( "IR\n" );
   InitIR();
   while(TRUE) {
      if( is_INT_IR() ) {
         clr_INT_IR();
         PollIR();
         if( bIRnewHit == TRUE ) { // new IR code is coming
            bIRnewHit = FALSE;
            // process IR event here
            printf( "%4lX\n", gIRdata );
         }
      }
      TimeoutIR();
   }
}
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