Étape 3 :
VOUS DEVEZ UTILISER CE CODE POUR PROGARAMMING
temp de flotteur ;
int tempPin = 0 ;
broche 2 int = 2 ;
broche 3 int = 3 ;
int broche4 = 4 ;
int pin5 = 5 ;
pin7 int = 7 ;
int pin8 = 8 ;
pin9 int = 9 ;
int pin10 = 10 ;
int pin11 = 11 ;
int pin12 = 12 ;
int pin13 = 13 ;
void setup()
{
pinMode (pin2, sortie) ;
pinMode (broche 3, sortie) ;
pinMode (pin4, sortie) ;
pinMode (pin5, sortie) ;
pinMode (pin7, sortie) ;
pinMode (pin8, sortie) ;
pinMode (pin9, sortie) ;
pinMode (pin10, sortie) ;
pinMode (pin11, sortie) ;
pinMode (pin12, sortie) ;
pinMode (pin13, sortie) ;
Serial.Begin(9600) ;
}
void loop()
{
Temp = analogRead(tempPin) ;
Temp = (5.0 * temp * 100.0)/1024.0 ;
Serial.Print(temp) ;
Serial.println() ;
Si (temp > = 25.00){digitalWrite(pin2,HIGH);}
Si (temp > = 30.00){digitalWrite(pin3,HIGH);}
Si (temp > = 35.00){digitalWrite(pin4,HIGH);}
Si (temp > = 40.00){digitalWrite(pin5,HIGH);}
Si (temp > = 45.00){digitalWrite(pin7,HIGH);}
Si (temp > = 50.00){digitalWrite(pin8,HIGH);}
Si (temp > = 55.00){digitalWrite(pin9,HIGH);}
Si (temp > = 60.00){digitalWrite(pin10,HIGH);}
Si (temp > = 65.00){digitalWrite(pin11,HIGH);}
Si (temp > = 70.00){digitalWrite(pin12,HIGH);}
Si (temp > 75.00){digitalWrite(pin13,HIGH);}
Delay(4000) ;
digitalWrite(pin10,LOW) ;
digitalWrite(pin9,LOW) ;
digitalWrite(pin8,LOW) ;
digitalWrite(pin7,LOW) ;
digitalWrite(pin5,LOW) ;
digitalWrite(pin4,LOW) ;
digitalWrite(pin3,LOW) ;
digitalWrite(pin2,LOW) ;
Delay(1) ;
}