Serial 3Channel AC 230V SSR and Dimmer. Part-2

FIRING ANGLE

Phase angle of applied voltage at which the Thyristor conduct

 

CONNECTING  230V AC DIMMER WITH ELECTRONIC GADGETS

UART INPUT FOR LOADS

A=load1

B=load2

C=load3

S=ALL OFF (LOAD1=OFF,LOAD2=OFF,LOAD3=OFF)

N=ALL ON (LOAD1=100%, LOAD2=100%, LOAD3=100%)

Example

A100= load1 at 100% dimmer level.

A026=load1 at 26% dimmer level.

B065=load2 at 65% dimmer level.

C089=load3 at 89% dimmer level.

LOAD1

LOAD2

LOAD3

All ON and All OFF

CONNECTING WITH  PIC  PROJECT  BOARD

CONNECTION DIAGRAM

 

WORKING

• Make the connections as shown in diagram
• Connect PC  and USB to TTL through USB cable
• Connect TX pin of Dimmer to RX of  USB to TTL
• Connect RX pin of Dimmer to TX of  USB to TTL
• Connect bulb to the Load 1
• Connect AC IN of Dimmer to power supply

 

CONNECTING 230V AC SSR & DIMMER WITH ARDUINO

 

ARDUINO CODE

int s1=8;                  //connect switch1 to pin 2 of arduino

int s2=9;                  //connect switch2 to pin 3 of arduino

int s3=10;                  //connect switch3 to pin 4 of arduino

int s4=11;                 //connect switch4 to pin 5 of arduino

int s5=12;                 //connect switch5 to pin 6 of arduino

int s6=13;

 

void setup()

{

  Serial.begin(9600);      // initialize the serial communications

  pinMode(s1,INPUT);

  pinMode(s2,INPUT);

  pinMode(s3,INPUT);

  pinMode(s4,INPUT);

  pinMode(s5,INPUT);

  pinMode(s6,INPUT);

}

void loop()

{

  unsigned char LOAD1=0,LOAD2=0,LOAD3=0;

   if(s1==LOW)                 

   {

     if(LOAD1<100)

     LOAD1++;

     Serial.write('A');

     CONVERT_DISPLAY(LOAD1);     

     delay(500);                    

     }

   

    if(s2==LOW)                 

     {

       if(LOAD1>0)

        LOAD1--;

       Serial.write('A');

       CONVERT_DISPLAY(LOAD1);   

       delay(500);                  

      }

  

   if(s3==LOW)                 

   {

     if(LOAD2<100)

     LOAD2++;

     Serial.write('B');

     CONVERT_DISPLAY(LOAD2);     

     delay(500);                    

     }

    

     if(s4==LOW)                

     {

       if(LOAD2>0)

        LOAD2--;

       Serial.write('B');

       CONVERT_DISPLAY(LOAD2);   

       delay(500);                  

      }

 

  if(s5==LOW)           

   {

     if(LOAD3<100)

     LOAD3++;

     Serial.write('C');

     CONVERT_DISPLAY(LOAD3);     

     delay(500);                     

     }

   

     if(s6==LOW)                

     {

       if(LOAD3>0)

        LOAD3--;

       Serial.write('C');

       CONVERT_DISPLAY(LOAD3);   

       delay(500);                  

      }

}

 

 

void CONVERT_DISPLAY(unsigned int d)

{

   unsigned char dig1,dig2,dig3,dig[3];

   unsigned char x;

   unsigned char temp;

   temp=d;

   temp=temp/10;

   dig1=d%10;

   dig2=temp%10;

   dig3=temp/10;

       

        dig[0]=dig3;

       dig[1]=dig2;

       dig[2]=dig1;

       for(x=0;x<3;x++)

       {

           temp=dig[x]|0x30;

           Serial.write(temp);          

    }                                                              

}         

NOTE: Since this module working with live 230V AC, while experimenting user has to take proper safety precautions.