#define ADC_VREF_mV 5000.0 // in millivolt
#define ADC_RESOLUTION 1024.0
int LedVerde = 11;
int LedRojo = 12;
int LedAzul= 10;
int LedAmarillo = 9;
void setup() {
pinMode(13, OUTPUT);
pinMode(4, INPUT);
pinMode(5, INPUT);
pinMode(6,INPUT);
pinMode(7, INPUT);
pinMode(8, INPUT);
pinMode(LedAmarillo, OUTPUT);
pinMode(LedAzul, OUTPUT);
pinMode(LedVerde, OUTPUT);
pinMode(LedRojo, OUTPUT);
Serial.begin(9600);
}
void loop() {
boolean PulsPB = digitalRead(7);// rojo
boolean PulsPP = digitalRead(8);// verde
boolean PlantaB = digitalRead(5);
boolean PrimerP = digitalRead(6);
boolean PuertaC = digitalRead(4);
boolean PulsEmergencia = digitalRead(3);
Serial.println();
Serial.println();
int analogValue = analogRead(A0);
float milliVolt = analogValue * (ADC_VREF_mV / ADC_RESOLUTION);
// convert the voltage to the temperature in Celsius
float celsius = milliVolt / 10;
// convert the Celsius to Fahrenheit
float tempF = celsius * 9 / 5 + 32;
if (celsius > 23){
digitalWrite(13, HIGH);
}else{
digitalWrite(13, LOW);
}
if (PulsEmergencia == HIGH){
digitalWrite(LedVerde, LOW);
digitalWrite(LedRojo, LOW);
//digitalWrite(LedAmarillo, LOW);
//digitalWrite(LedAzul, LOW);
}
if (PuertaC == HIGH){
if (PrimerP == HIGH ){
digitalWrite(LedAzul, LOW);
digitalWrite(LedAmarillo, HIGH);
digitalWrite(LedVerde, LOW);
if (PulsPB == HIGH){
//digitalWrite(LedAmarillo, HIGH);// BAJA leds rojo y amarillo
digitalWrite(LedRojo, HIGH);
}
}
if (PlantaB == HIGH ){
digitalWrite(LedAmarillo, LOW);
digitalWrite(LedAzul, HIGH);
digitalWrite(LedRojo, LOW);
if (PulsPP == HIGH){
//digitalWrite(LedAzul,HIGH);//sube leds verde y azul
digitalWrite(LedVerde,HIGH);
}
}
}
else{
digitalWrite(LedVerde, LOW);
digitalWrite(LedRojo, LOW);
digitalWrite(LedAmarillo, LOW);
digitalWrite(LedAzul, LOW);
}
}