In this topic we are going to see how to make a digital up/down counter using multiplexed 7-segment display with 74HC595 shift register and PIC16F877A microcontroller.
From the 74HC595 datasheet this shift register is a high speed, 8-stage serial shift register with a storage register and 3-state outputs. The registers have separate clocks.
Data is shifted on the positive-going transitions of the shift register clock input (SHCP). The data in each register is transferred to the storage register on a positive-going transition of the storage register clock input (STCP). If both clocks are connected together, the shift register will always be one clock pulse ahead of the storage register.
The following table shows the 74HC595 shift register pin-outs:
The following circuit schematic shows a multiplexed 4 digits connected to the 74HC595 shift register. The type of the 7-segment display used in this example is common anode.
In the circuit there are two push buttons, these buttons are used to increment and decrement the displayed number.
Here is the example code I think it is a small and clear code.
// 4-Digit 7-Segment display with 74HC595 interfacing with PIC16F877A CCS C code // http://ccspicc.blogspot.com/ // electronnote@gmail.com #define data_pin PIN_B0 #define clock_pin PIN_B1 #define latch_pin PIN_B2 #include <16F877A.h> #fuses HS,NOWDT,NOPROTECT,NOLVP #use delay(clock = 8000000) #use fast_io(B) #use fast_io(D) short s; // Used to know buttons position unsigned int j, digit ; unsigned long i = 0; unsigned int seg(unsigned int num) { switch (num) { case 0 : return 0x80; case 1 : return 0xF2; case 2 : return 0x48; case 3 : return 0x60; case 4 : return 0x32; case 5 : return 0x24; case 6 : return 0x04; case 7 : return 0xF0; case 8 : return 0; case 9 : return 0x20; } } void write_data(unsigned int number){ for(j = 0x80; j > 0; j = j >> 1) { if(number & j) output_high(data_pin); else output_low(data_pin); output_high(clock_pin); output_low(clock_pin); } output_high(latch_pin); output_low(latch_pin); } void main(){ port_b_pullups(TRUE); // Enable PORTB pull-ups output_b(0); // PORTB initial state set_tris_b(0x18); // Configure RB3 & RB4 pins as inputs output_d(0); // PORTD initial state set_tris_d(0); // Configure PORTD pins as inputs while(TRUE){ if(input(PIN_B3) && input(PIN_B4)) s = 1; if(s == 1) { if(input(PIN_B3) == 0) { s = 0; i++; if(i > 9999) i = 0; } if(input(PIN_B4) == 0) { s = 0; if(i < 1) i = 1; i--; } } digit = seg(i % 10); // Prepare to display ones output_d(0x0F); // Turn off all displays write_data(digit); output_d(0x07); // Turn on display for ones delay_ms(1); digit = seg((i / 10) % 10); // Prepare to display tens output_d(0x0F); // Turn off all displays write_data(digit); output_d(0x0B); // Turn on display for tens delay_ms(1); digit = seg((i / 100) % 10); // Prepare to display hundreds output_d(0x0F); // Turn off all displays write_data(digit); output_d(0x0D); // Turn on display for hundreds delay_ms(1); digit = seg((i / 1000) % 10); // Prepare to display thousands output_d(0x0F); // Turn off all displays write_data(digit); output_d(0x0E); // Turn on display for thousands delay_ms(1); } }
7-Segment display with 74HC595 shift register interfacing with PIC16F877A video:
The following video from a real hardware circuit for the digital counter.
