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PIC10F200: Disable pullups, Wdt, Setting ports

 
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eem2am



Joined: 18 Jul 2012
Posts: 21

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PIC10F200: Disable pullups, Wdt, Setting ports
PostPosted: Tue Jul 24, 2012 3:31 am     Reply with quote

Hello, i am using PIC10F200 and am wishing to:-

1...disable pullups
2...set up WDT to slowest rate
3...initially set ports to inputs (high impedance)
4....Calibrate the internal oscillator

Do you know how i do these things?.....i dont seem to be having much luck...........otherwisse my code builds fine

Code:
#include <10F200.h>
#use standard_io(B)
#use delay(clock=4M)
#fuses WDT,NOPROTECT, NOMCLR

#define PIN_TRIGGER          PIN_B0            // Output high to trigger
#define PIN_SYNC         PIN_B1            // Output low to send sync pulse; Input when listen for sync pulse

#define PIN_PHASE         PIN_B2            // Input low flashes IN sync; Input high = anti sync;
                                    // Low to high at 50Hz means AC input, so flash in sync.

#define PIN_FPM            PIN_B3            // Input high = 75FPM; Input low = 60FPM

#define   ANTI_SYNC         1
#define   IN_SYNC            0

#define   FPM60            1
#define FPM75            0

#define   AC               0
#define   DC               1
#define   YES               1
#define   NO               0

//Remember to disable internal pullups
//Remember to enable watchdog and add clrwdt instuctions
//Remember to calibrate the internal oscillator.
//Are they outputs or inputs by default.?...or are they high impedance by default?
//can you set a port to high Z by just reading from it?
//STATUS REGISTER, Option register,


//DECLARE GLOBAL VARIABLES
   short int   ACDCflag  = DC;         //High = DC; Low = AC
   short int   PHASEflag = IN_SYNC;   //Low = in-sync; High = out-of-sync
   short int   FPMflag   = FPM60;      //High = 60FPM; Low = 75FPM   

   short int   value=0;
   short int   value1=0;
   short int   SYNC_pulse_detected=NO;
   int         i;
   int         counter;



void send_trigger_pulse(void) {
      output_bit(PIN_TRIGGER,1);         //SEND TRIGGER PULSE
      delay_us(10);
      output_bit(PIN_TRIGGER,0);

}


void send_sync_pulse(void)  {
      output_bit(PIN_SYNC,0);            //SEND SYNC PULSE
      delay_ms(10);
      value = input(PIN_SYNC);         //SETS PIN_SYNC to High Impedance.
}



///////////////////////////////////////////////////////////////////////////////////////////
//vvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvvv
void   flash(void){

   while(1){

      SYNC_pulse_detected = NO;

      if   (PHASEflag == IN_SYNC) {send_trigger_pulse();}
      
         
//10ms

      send_sync_pulse();


      for (i=0; i<3; i++) {   //Dont listen for sync pulses within 30ms of the sent SYNC pulse.
         delay_ms(10);
      }//next i


//40ms


      if (FPMflag == FPM60) {counter = 205;}
      if (FPMflag == FPM75) {counter = 155;}
      for (i=0; i<counter; i++) {
         if (!input(PIN_SYNC))   {SYNC_pulse_detected = YES; break; }
         delay_ms(2);
       }//next i

      if (SYNC_pulse_detected == YES) {continue;}
//350ms
//450ms


      for (i=0; i<5; i++) {   //STOP LISTENING FOR SYNC PULSE DUE TO CPI "SECOND" PULSE.      
         delay_ms(10);
      }//next i

   if   (PHASEflag == ANTI_SYNC) {send_trigger_pulse();}



      for (i=0; i<5; i++) {   //STOP LISTENING FOR SYNC PULSE DUE TO CPI "SECOND" PULSE.      
         delay_ms(10);
      }//next i
//450ms
//550ms   
      if (FPMflag == FPM60) {counter = 210;}
      if (FPMflag == FPM75) {counter = 110;}
      for (i=0; i<210; i++) {
         if (!input(PIN_SYNC))   {SYNC_pulse_detected = YES; break; }
         delay_ms(2);
       }//next i

//770ms
 //970ms

      if (SYNC_pulse_detected == YES) {continue;}

      for (i=0; i<3; i++) {   //Dont listen for sync pulses within 30ms of the sent SYNC pulse.
         delay_ms(10);
      }//next i

//1000ms

   }
} // end of
//^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
///////////////////////////////////////////////////////////////////////////////////////////   



//M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M
//VVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVVV
// Main program starts here

void main(void)
{


//Disable port B pullups
//   port_b_pullups(FALSE);
   setup_counters(RTCC_INTERNAL, WDT_2304MS);

//ENSURE TIGGER OUTPUT IS LOW
   output_bit(PIN_TRIGGER, 0);

      for (i=0; i<10; i++) {   //Start up delay
         delay_ms(10);
      }//next i   

               

//SET FPM FLAG
   FPMflag = input(PIN_FPM);
//SET PHASE FLAG
   PHASEflag = input(PIN_PHASE);

//SEE IF AC or DC
   for (i=0; i < 20; i++) {
      value = input(PIN_PHASE);
      delay_ms(5);
      value1 = input(PIN_PHASE);

      if (value != value1) {ACDCflag = AC; break; }
    }//next i

//DELAY TO ENSURE TUBE CAPACITOR HAS CHARGED UP ENOUGH TO FLASH THE TUBE.
      for (i=0; i<60; i++) {   //Start up delay
         delay_ms(10);
      }//next i   
                                                                                                                 

   flash();

} // end of main
//M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M M
//^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
Ttelmah



Joined: 11 Mar 2010
Posts: 19539

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PostPosted: Tue Jul 24, 2012 7:49 am     Reply with quote

The internal oscillator is automatically calibrated. If you select the internal oscillator, the compiler adds the code to read the calibration value and load it at the start of the program. - Provided you have not done a full erase on the chip. If you have, you _will_ have lost the calibration value. Most programmers have an option to save this, and this must be enabled. If the value has been lost, some programmers have the ability to re-calculate the value needed, otherwise you will need to try 'trial and error', using a #rom statement to put values back until the timings approach the correct values....

Ports wake up as high impedance - read the data sheet.

setup_wdt(WDT_2304MS);
Key here is to read the processor include file.

port_b_pullups(FALSE);

Also, the 'clrwdt' instruction, is 'restart_wdt()'.

Best Wishes
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