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(PicoOClock : Turn your oscilloscope into a digital clock)
(PicoOClock : Turn your oscilloscope into a digital clock)
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|[[File:PicOClock-frame1.jpg]]  
 
|[[File:PicOClock-frame1.jpg]]  
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|During the first period, we will draw all vertical segments, and horizontal upper segments only :
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As a game, I let you try to find out the spot trajectory.
 +
Don't forget the rules :
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* you can't go backward
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* you can't clear the spot
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But you can move so fast verticaly that the eye can't see the spot moving.
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The lowest line under the digits is not significant, it his the place where the spot is parked when not used to draw a segment
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|[[File:PicOClock-frame2.jpg]]
 
|[[File:PicOClock-frame2.jpg]]

Revision as of 22:16, 9 February 2012

An On-Screen-Display with only 5 components !

Contents

PicoOClock : Turn your oscilloscope into a digital clock

Let me introduce PicoOClock to you with this short video clip :


PicOClock-frame4.jpg
PicOClock-frame1.jpg During the first period, we will draw all vertical segments, and horizontal upper segments only :

As a game, I let you try to find out the spot trajectory. Don't forget the rules :

  • you can't go backward
  • you can't clear the spot

But you can move so fast verticaly that the eye can't see the spot moving.

The lowest line under the digits is not significant, it his the place where the spot is parked when not used to draw a segment

PicOClock-frame2.jpg
PicOClock-frame3.jpg

If you like it, please see also my Pic Pal Video Library, and also PicoOSD

Circuit Schematic

PicoClock-schematic.jpg

C Source code

/*
 *******************************************************************************
 * PICOCLOCK : PIC Oscilloscope CLOCK
 *******************************************************************************
 *
 * This program shows how to display a digital clock on an oscilloscope
 * with a PIC and only 4 resistors.
 *
 * Circuit schematics :
 *
 * ------------+
 *         RA0 +----------------> to oscilloscope X trigger input
 *             |
 *         RA1 +----------------> pull-up, button to ground : minutes adjustment
 *         RA2 +----------------> pull-up, button to ground : hours adjustment
 *  PIC        |     ____
 *         RB1 +----|____|-----+---------> to oscilloscope Y input
 *             |     680       |
 *             |              +-+
 *             |              | | 330
 *             |              +-+
 *             |     ____      |
 *         RB0 +----|____|-----+
 *             |     680       |
 * ------------+              +-+
 *                            | | 680
 *                            +-+
 *                             |
 *                           -----
 *                            ---   GND
 *                             -
 *
 * Oscilloscope setup :
 * set timebase to 0.1 ms, V/div = 1 V
 * select external trigger.
 *
 * source code for mikro C compiler V7.0.0.3
 * feel free to use this code at your own risks
 * and don't bother me if you get addicted watching this clock.
 *
 * target : PIC16 or PIC18, 16 Mhz crystal
 * HS clock, no watchdog.
 *
 * tested with PIC16F84A and PIC16F877A
 *
 * Author : Bruno Gavand, October 2007
 * see more details on http://www.micro-examples.com/
 *
 *******************************************************************************
 */
#define TRIGGER         PORTA.F0        // this output is to be connected to oscilloscope trigger input
#define KEY             PORTA & 0b110   // input keys mask
#define KEY_MIN_UP      PORTA & 0b010   // minute adjust button
#define KEY_HH_UP       PORTA & 0b100   // hour adjust button

/*
 * 2 bits R2R DAC gives 4 output levels :
 */
#define HIGH            PORTB = 0b11    // uper line
#define MID             PORTB = 0b10    // middle line
#define LOW             PORTB = 0b01    // lower line
#define ZERO            PORTB = 0b00    // lowest line

#define MAX_SCALER      15625           // number of timer 0 overflow per second @ 16 Mhz = 16000000 / 4 / 256

#define MAX_DIGIT        6              // number of digits to be displayed
#define SLOTS           (MAX_DIGIT * 3 + 4)     // number of time slots : 2 for header, 3 per digits, 2 for trailer

/*
 * 10 digits 7 segment encoding + blank
 */
const unsigned char     septSeg[11] = { 0x3f, 0x06, 0x5b, 0x4f, 0x66, 0x6d, 0x7d, 0x07, 0x7f, 0x6f, 0x00 } ;

/*
 * slot index for digit start
 */
const unsigned char     sIdx[] = {1, 4, 8, 11, 15, 18} ;

unsigned char display[MAX_DIGIT] ;      // digit to be displayed

/*
 * time slot encoded line flags :
 * bit 0 is upper line
 * bit 1 is middle line
 * bit 2 is lower line
 * (if no line flag is set, spot is redirected to lowest line)
 * bit 6 is lower vertical bar
 * bit 7 is upper vertical bar
 */
unsigned char line[SLOTS] ;

unsigned char dIdx = 0 ;        // time slot counter
unsigned char fIdx = 0 ;        // frame counter

unsigned int scaler = 0 ;       // RTC scaler
unsigned char   ss = 0, mn = 0, hh = 0 ;        // RTC

/*
 * around 10 micro-second delay
 */
void    delay10us()
        {
        Delay_us(10) ;
        }

/*
 * ISR
 */
void    interrupt(void)
        {
        if(INTCON.T0IF)                                         // if timer 0 overflow
                {
                scaler++ ;                                      // increment scaler
                if(scaler > MAX_SCALER)                         // one second has expired ?
                        {
                        scaler = 0 ;                            // clear scaler
                        ss++ ;                                  // next second
                        if(ss == 60)                            // last second in minute ?
                                {
                                ss = 0 ;                        // clear second
                                mn++ ;                          // next minute
                                if(mn == 60)                    // last minute in hour ?
                                        {
                                        mn = 0 ;                // clear minute
                                        hh++ ;                  // next hour
                                        if(hh == 24)            // last hour in day ?
                                                {
                                                hh = 0 ;        // clear hour
                                                }
                                        }
                                }
                        }

                if(line[dIdx].F6 && line[dIdx].F7)              // if full vertical bar
                        {
                        LOW, HIGH, LOW, HIGH ;
                        LOW, HIGH, LOW, HIGH ;
                        LOW, HIGH, LOW, HIGH ;
                        LOW, HIGH, LOW, HIGH ;
                        LOW, HIGH, LOW, HIGH ;
                        LOW, HIGH, LOW, HIGH ;
                        LOW, HIGH, LOW, HIGH ;
                        LOW, HIGH, LOW, HIGH ;
                        }
                else if(line[dIdx].F6)                          // if lower vertical bar
                        {
                        MID, LOW, MID, LOW ;
                        MID, LOW, MID, LOW ;
                        MID, LOW, MID, LOW ;
                        MID, LOW, MID, LOW ;
                        MID, LOW, MID, LOW ;
                        MID, LOW, MID, LOW ;
                        MID, LOW, MID, LOW ;
                        MID, LOW, MID, LOW ;
                        }
                else if(line[dIdx].F7)                          // if upper vertical bar
                        {
                        MID, HIGH, MID, HIGH ;
                        MID, HIGH, MID, HIGH ;
                        MID, HIGH, MID, HIGH ;
                        MID, HIGH, MID, HIGH ;
                        MID, HIGH, MID, HIGH ;
                        MID, HIGH, MID, HIGH ;
                        MID, HIGH, MID, HIGH ;
                        MID, HIGH, MID, HIGH ;
                        }

                if(dIdx == 7)                                   // hour : minute separator
                        {
                        LOW, Delay10us() ;
                        MID, Delay10us() ;
                        }
                else if(dIdx == 14)                             // minute : second separator
                        {
                        if(scaler < MAX_SCALER / 2)             // blink 0.5 Hz
                                {
                                LOW, Delay10us() ;
                                MID, Delay10us() ;
                                }
                        }
                        
                switch(fIdx)                                    // depending on frame index
                        {
                        case 0:                                 // upper line
                                if(line[dIdx] & 1)
                                        {
                                        HIGH ;
                                        }
                                else
                                        {
                                        ZERO ;
                                        }
                                break ;
                        case 1:                                 // middle line
                                if(line[dIdx] & 2)
                                        {
                                        MID ;
                                        }
                                else
                                        {
                                        ZERO ;
                                        }
                                break ;
                        case 2:                                 // lower line
                                if(line[dIdx] & 4)
                                        {
                                        LOW ;
                                        }
                                else
                                        {
                                        ZERO ;
                                        }
                                break ;
                        }

                dIdx++ ;                                        // next slot
                if(dIdx == SLOTS)                               // last slot ?
                        {
                        dIdx = 0 ;                              // clear slot

                        TRIGGER = 1 ;                           // triggers the scope
                        fIdx++ ;                                // next frame
                        if(fIdx == 3)                           // last frame ?
                                {
                                fIdx = 0 ;                      // clear frame
                                }
                        TRIGGER = 0 ;                           // end trigger
                        }
                INTCON.T0IF = 0 ;                               // clear timer 0 overflow
                }
        }
        
/*
 * main entry
 */
void    main()
        {
#ifdef P16F877A
        /*
         * set PORTA as digital I/O
         */
        ADCON1 = 7 ;
        CMCON = 7 ;
#endif

        TRISA = 0b110 ;                                        // PORTA direction register
        PORTA = 0 ;
        
        TRISB = 0 ;                                             // PORTB is output
        PORTB = 0 ;

        /*
         * clear buffers
         */
        memset(&line, 0, sizeof(line)) ;
        memset(display, 0, sizeof(display)) ;

        OPTION_REG = 0b11011000 ;                               // timer 0 prescaler is 1:1
        INTCON = 0b10100000 ;                                   // start interrupts

        for(;;)                                                 // main loop
                {
                unsigned char i ;

                if(KEY)                                         // is a button pressed ?
                        {
                        if(KEY_MIN_UP)                          // adjust minutes
                                {
                                ss = 0 ;
                                mn++ ;
                                }
                        else if(KEY_HH_UP)                      // adjust hours
                                {
                                ss = 0 ;
                                hh++ ;
                                }
                        mn %= 60 ;                              // prevent minute overflow
                        hh %= 24 ;                              // prevent hours overflow
                        Delay_ms(100) ;                         // debounce
                        }

                /*
                 * prepare display buffer
                 */
                display[5] = ss % 10 ;                          // seconds
                display[4] = ss / 10 ;

                display[3] = mn % 10 ;                          // minutes
                display[2] = mn / 10 ;

                display[1] = hh % 10 ;                          // hours
                display[0] = (hh > 9) ? hh / 10 : 10 ;          // blank first digit if zero

                /*
                 * prepare time slot flags
                 */
                for(i = 0 ; i < MAX_DIGIT ; i++)                // for each digit
                        {
                        unsigned char s ;
                        unsigned char *p ;
                        
                        s = septSeg[display[i]] ;               // get 7 segment encoding

                        p = &line[sIdx[i]] ;                    // get pointer to time slot, left part of the digit

                        (*p).F0 = s.F0 ;                        // a segment
                        (*p).F1 = s.F6 ;                        // g segment
                        (*p).F2 = s.F3 ;                        // d segment

                        (*p).F6 = s.F4 ;                        // e segment
                        (*p).F7 = s.F5 ;                        // f segment

                        p++ ;                                   // next slot, center part of the digit

                        (*p).F0 = s.F0 ;                        // a segment (continuation)
                        (*p).F1 = s.F6 ;                        // g segment (continuation)
                        (*p).F2 = s.F3 ;                        // d segment (continuation)

                        p++ ;                                   // next slot, right part of the digit

                        (*p).F6 = s.F2 ;                        // b segment
                        (*p).F7 = s.F1 ;                        // c segment
                        }
                }
        }


Download project

Download PicoOSD-project.zip file for mikroC : File:PicoOSD-project.zip

Includes :

  • mikroC PRO project files for PIC12F683, should work also with most of PIC
  • picoOSD C source code
  • picoOSD .HEX files

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