In this example we will connect an LDR again but this time when the ADC value goes below a certain number we will switch an LED on, in real life this could be an alarm or a night light.
The LCD is more for debug purposes and could be removed
Schematic
Code
The code was witten in mikroC pro for PIC, its fairly simple when the value falls below 100 we switch on the LED connected to PORT C 0
[codesyntax lang=”c”]
sbit LCD_RS at RB4_bit; sbit LCD_EN at RB5_bit; sbit LCD_D4 at RB0_bit; sbit LCD_D5 at RB1_bit; sbit LCD_D6 at RB2_bit; sbit LCD_D7 at RB3_bit; sbit LCD_RS_Direction at TRISB4_bit; sbit LCD_EN_Direction at TRISB5_bit; sbit LCD_D4_Direction at TRISB0_bit; sbit LCD_D5_Direction at TRISB1_bit; sbit LCD_D6_Direction at TRISB2_bit; sbit LCD_D7_Direction at TRISB3_bit; unsigned int adcvalue,value,temp_res; unsigned char car,x,y; char *voltage = "00.00"; long temp; // Routine to show the value of the ADC_read void ShowADC(int x, int y, unsigned int adcvalue) { car = adcvalue / 1000; LCD_Chr(x,y,48+car); adcvalue=adcvalue-1000*car; car = (adcvalue / 100); LCD_Chr_CP(48+car); adcvalue=adcvalue-100*car; car = (adcvalue / 10); LCD_Chr_CP(48+car); adcvalue=adcvalue-10*car; car = adcvalue; LCD_Chr_CP(48+car); delay_ms(30); } void main() { TRISA = 0xFF; // PORTA is input TRISB = 0; TRISC = 0; PORTB = 0; Lcd_Init(); // Initialize LCD Lcd_Cmd(_LCD_CLEAR); // Clear display Lcd_Cmd(_LCD_CURSOR_OFF); // Cursor off Lcd_Out(1, 1, " ADC :"); do { temp_res = ADC_Read(2); // Get 10-bit results of AD conversion adcvalue = temp_res; ShowADC (1,7,adcvalue); if(adcvalue < 100) { PORTC = 0x01; } else { PORTC = 0x00; } Delay_ms(200); } while(1); } // end main
[/codesyntax]
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