What to expect of us?

  

Fair pricing

No hidden charges.

Based upon the information you provide, You will be given an upfront estimate for your project and we'll stick to it. 

Input PULLUP Testing

 

/*
Input Pull-up Serial

This example demonstrates the use of pinMode(INPUT_PULLUP). It reads a digital
input on pin A3,A4 and ON the LED connected to D8,D9 When two pushbutton is pressed
then activate the relay and ON the third LED .

The circuit:
- momentary switch attached from pin A3 to ground
- momentary switch attached from pin A4 to ground
- LED on pin 8 relates to A3
- LED on pin 9 relates to A4
- Relay on pin 16

Unlike pinMode(INPUT), there is no pull-down resistor necessary. An internal
20K-ohm resistor is pulled to 5V. This configuration causes the input to read
HIGH when the switch is open, and LOW when it is closed.

*/

void setup() {
//start serial connection
Serial.begin(115200);
//configure pin 2 as an input and enable the internal pull-up resistor
pinMode(A3, INPUT_PULLUP);
pinMode(A4, INPUT_PULLUP);
pinMode(8, OUTPUT);
pinMode(9, OUTPUT);
pinMode(16, OUTPUT);

digitalWrite(16,LOW ); // Relay off
}

void loop() {

bool Flag1,Flag2;
//read the pushbutton value into a variable
int Val1 = digitalRead(A3);
int Val2 = digitalRead(A4);
//print out the value of the pushbutton
Serial.println(Val1);
Serial.println(Val2);

digitalWrite(16,LOW );

// Keep in mind the pull-up means the pushbutton's logic is inverted. It goes
// HIGH when it's open, and LOW when it's pressed. Turn on pin 8,9 when the
// button's pressed, and off when it's not:
if (Val1 == HIGH) {
digitalWrite(8, LOW);
Flag1=LOW;
} else {
digitalWrite(8, HIGH);
Flag1=HIGH;
}

if (Val2 == HIGH) {
digitalWrite(9, LOW);
Flag2=LOW;
} else {
digitalWrite(9, HIGH);
Flag2=HIGH;
}

if ((Flag1 == HIGH) && (Flag2 == HIGH))
digitalWrite(16, HIGH); // Relay on
else
digitalWrite(16,LOW ); // Relay off

}