3 Digit AC 220 Volt panel meter with 16F676

Status
Not open for further replies.
I very rarely use that device... For whats its worth several micro's have 128bytes in the same size... 64bytes is just too little.. From a C programming point!!!
 
HI all

Any Idea or circuit of a 3 Digit AC 220 Volt panel meter with 16F676 ?

Thanks in Advance........


Hi,

Simplest circuit:
1. Half wave rectifier for signal (not full wave which brings in common ground problems)
2. Off line capacitive coupled power supply for uC and LED or LCD power.
3. Read rectified and filtered signal with ADC, display on LED or LCD display.

That's about the simplest you can get that reads the voltage, displays it, and does not require a wall wart to power it.
 



Thanks for the valuable IDEA.......
 

I have never build interesting to build.
anyway we will convert 220vAC to 12V Ac then C will make it 18V then....
 
HI All.......

No Idea...................?

So, I can share with you a working AC 230 Volt 7 segment meter with PIC Chip...
Its not my Designe, I found it internet. Sorry, I forgot the link.

Its also a proteus simulation, but its not working correctly.

But in a real hardware, its works 100%.


Please let me know if you have any problem....


Thank you
 

Attachments

  • 230 AC Voltmeter.rar
    137.2 KB · Views: 466
Hi all
can someone please help me to compile this code?

I need the hex file...

Thank you
 

Attachments

  • New Folder.rar
    55.1 KB · Views: 345
Hi all
can someone please help me to compile this code?

I need the hex file...

Thank you


This is another AC Voltmeter. The author not supplied the hex file.. When I compile the code, the simulation not working.. I think he give us a wrong code..

Please compile and run the proteus file....

Thanks in advance
 
Hi all


Whats wrong in this code?

Code:
/* AC Voltmeter
 * Target PIC: PIC16F676
 */

#define SA RC4_bit  // 6
#define SB RC2_bit  // 8
#define SC RC1_bit  // 9
#define SD RC5_bit  // 5
#define SE RA4_bit  // 3
#define SF RC3_bit  // 7
#define SG RC0_bit  // 10
#define C1 RA5_bit  // 2
#define C2 RA2_bit  // 11
#define C3 RA1_bit  // 12

#define vinCh 0   // RA0

unsigned int voltage;

unsigned char SEGMENT;
const unsigned char COMMON_CATHODE = 0;
const unsigned char COMMON_ANODE = 1;
const unsigned char COMMON = COMMON_CATHODE;
unsigned char DriveSegment[10];

const unsigned char AnodeDriveSegment[10] = {192, 249, 164, 176, 153, 146, 130, 248, 128, 152};
/*  These are the values that need to be sent to the seven segment [A..G] for
 *      a common anode display. These values have been obtaned using the
 *      Mikroelektronika seven segment editor provided as part of the
 *      mikroC/mikroBASIC/mikroPASCAL compiler.
 *  The corresponding values for the common cathode display are:
 *      CathodeDriveSegment = 255 - AnodeDriveSegment;
 */

void initialize(void){
     unsigned char i;
     
     CMCON = 7;       // For 16F676 - comment for 16F684
     // CMCON0 = 7;          // For 16F684 - comment for 16F676
     TRISA = 1;       // RA0 input for ADC
     PORTA = 0;
     ANSEL = 1;
     ADC_Init();
     
     TRISC = 0;
     PORTC = 0;
     

     if (COMMON == COMMON_ANODE){
        for (i = 0; i < 10; i++){
            DriveSegment[i] = AnodeDriveSegment[i];
        }
     }
     else{
          for (i = 0; i < 10; i++){
              DriveSegment[i] = 255 - AnodeDriveSegment[i];
          }
     }
     
}

unsigned int getVoltage(void){
     unsigned int vADC;
     float realVolts;
     unsigned int fullRange = 600; // 600VDC = ~424VAC
     /* DC (AC * sqrt(2)) voltage when ADC input voltage = 5.00V
      * This is essentially the "max" voltage of the voltmeter
      */
     vADC = ADC_Get_Sample(vinCh);
     realVolts = ((float)vADC * (float)fullRange) / (1024.0 * 1.41421);
     return (unsigned int) realVolts;
}

void displayVoltage(void){
     unsigned int SendVal;
     unsigned char Digit;
     unsigned char counter;
     
     for (counter = 0; counter < 3; counter++){ // repeat for each segment
        SEGMENT++;
        if (SEGMENT > 3) SEGMENT = 1;

        C1 = 0; C2 = 0; C3 = 0;

        switch (SEGMENT){
               case 1:
                    Digit = (unsigned char) (voltage / 100);
                    break;
               case 2:
                    Digit = (unsigned char) ((voltage / 10) % 10);
                    break;
               case 3:
                    Digit = (unsigned char) (voltage % 10);
                    break;
        }

        SendVal = DriveSegment[Digit] & 0x7F; // Make bit 7 zero

        SA = SendVal & 1;             // bit 0
        SB = (SendVal & 2) >> 1;      // bit 1
        SC = (SendVal & 4) >> 2;      // bit 2
        SD = (SendVal & 8) >> 3;      // bit 3
        SE = (SendVal & 16) >> 4;     // bit 4
        SF = (SendVal & 32) >> 5;     // bit 5
        SG = (SendVal & 64) >> 6;     // bit 6


        switch (SEGMENT){
               case 1:
                    C1 = 1;
                    break;
               case 2:
                    C2 = 1;
                    break;
               case 3:
                    C3 = 1;
                    break;
        }
       
        delay_ms(2);
     }
}

void main(void) {
     
     char samplecounter;
     
     initialize();
     while (1){
           voltage = getVoltage();
           for (samplecounter = 0; samplecounter < 80; samplecounter++){
               displayVoltage();
           }
     }
}


[code]


thanks
 
Its working?
 
Status
Not open for further replies.
Cookies are required to use this site. You must accept them to continue using the site. Learn more…