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Lampe Eveil : Différence entre versions
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(→Code) |
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| Ligne 18 : | Ligne 18 : | ||
===Code=== | ===Code=== | ||
| + | |||
| + | <pre> | ||
| + | int analogPin= A0; | ||
| + | int sensorValue= 0; | ||
| + | int outputValue=0; | ||
| + | bool interuValue=false; | ||
| + | |||
| + | void setup() { | ||
| + | // put your setup code here, to run once: | ||
| + | Serial.begin(9600); | ||
| + | pinMode(analogPin, OUTPUT); | ||
| + | |||
| + | //led1 | ||
| + | pinMode(11,OUTPUT); | ||
| + | pinMode(12,OUTPUT); | ||
| + | pinMode(13,OUTPUT); | ||
| + | |||
| + | //led2 | ||
| + | pinMode(5,OUTPUT); | ||
| + | pinMode(6,OUTPUT); | ||
| + | pinMode(7,OUTPUT); | ||
| + | |||
| + | |||
| + | //led3 | ||
| + | pinMode(8,OUTPUT); | ||
| + | pinMode(9,OUTPUT); | ||
| + | pinMode(10,OUTPUT); | ||
| + | |||
| + | //led4 | ||
| + | pinMode(1,OUTPUT); | ||
| + | pinMode(2,OUTPUT); | ||
| + | pinMode(3,OUTPUT); | ||
| + | |||
| + | |||
| + | //interrupteur | ||
| + | pinMode(4,INPUT); | ||
| + | |||
| + | //initialisation des leds | ||
| + | |||
| + | |||
| + | digitalWrite(11,HIGH); | ||
| + | digitalWrite(12,HIGH); | ||
| + | digitalWrite(13,HIGH); | ||
| + | |||
| + | digitalWrite(5,HIGH); | ||
| + | digitalWrite(6,HIGH); | ||
| + | digitalWrite(7,HIGH); | ||
| + | |||
| + | digitalWrite(8,HIGH); | ||
| + | digitalWrite(9,HIGH); | ||
| + | digitalWrite(10,HIGH); | ||
| + | |||
| + | digitalWrite(1,HIGH); | ||
| + | digitalWrite(2,HIGH); | ||
| + | digitalWrite(3,HIGH); | ||
| + | } | ||
| + | |||
| + | void loop() { | ||
| + | |||
| + | //etat photoresistance | ||
| + | sensorValue=analogRead(analogPin); | ||
| + | |||
| + | //etat interrupteur | ||
| + | interuValue=digitalRead(4); | ||
| + | Serial.println(sensorValue); | ||
| + | |||
| + | if (interuValue==0) | ||
| + | { | ||
| + | digitalWrite(11,HIGH); | ||
| + | digitalWrite(12,HIGH); | ||
| + | digitalWrite(13,HIGH); | ||
| + | digitalWrite(5,HIGH); | ||
| + | digitalWrite(6,HIGH); | ||
| + | digitalWrite(7,HIGH); | ||
| + | digitalWrite(8,HIGH); | ||
| + | digitalWrite(9,HIGH); | ||
| + | digitalWrite(10,HIGH); | ||
| + | digitalWrite(1,HIGH); | ||
| + | digitalWrite(2,HIGH); | ||
| + | digitalWrite(3,HIGH); | ||
| + | } | ||
| + | else { | ||
| + | |||
| + | if (sensorValue>=0 && sensorValue<=10){ | ||
| + | digitalWrite(11,LOW); | ||
| + | digitalWrite(12,LOW); | ||
| + | digitalWrite(13,LOW); | ||
| + | digitalWrite(5,LOW); | ||
| + | digitalWrite(6,LOW); | ||
| + | digitalWrite(7,LOW); | ||
| + | digitalWrite(8,LOW); | ||
| + | digitalWrite(9,LOW); | ||
| + | digitalWrite(10,LOW); | ||
| + | digitalWrite(1,LOW); | ||
| + | digitalWrite(2,LOW); | ||
| + | digitalWrite(3,LOW); | ||
| + | |||
| + | |||
| + | } | ||
| + | |||
| + | else if (sensorValue>=10 && sensorValue<=20){ | ||
| + | digitalWrite(11,LOW); | ||
| + | digitalWrite(12,LOW); | ||
| + | digitalWrite(13,LOW); | ||
| + | digitalWrite(5,LOW); | ||
| + | digitalWrite(6,LOW); | ||
| + | digitalWrite(7,LOW); | ||
| + | digitalWrite(8,HIGH); | ||
| + | digitalWrite(9,HIGH); | ||
| + | digitalWrite(10,HIGH); | ||
| + | digitalWrite(1,HIGH); | ||
| + | digitalWrite(2,HIGH); | ||
| + | digitalWrite(3,HIGH); | ||
| + | } | ||
| + | |||
| + | else if (sensorValue>=20 && sensorValue<=30){ | ||
| + | digitalWrite(11,LOW); | ||
| + | digitalWrite(12,LOW); | ||
| + | digitalWrite(13,LOW); | ||
| + | digitalWrite(5,HIGH); | ||
| + | digitalWrite(6,HIGH); | ||
| + | digitalWrite(7,HIGH); | ||
| + | digitalWrite(8,HIGH); | ||
| + | digitalWrite(9,HIGH); | ||
| + | digitalWrite(10,HIGH); | ||
| + | digitalWrite(1,HIGH); | ||
| + | digitalWrite(2,HIGH); | ||
| + | digitalWrite(3,HIGH); | ||
| + | } | ||
| + | |||
| + | |||
| + | else{ | ||
| + | |||
| + | digitalWrite(11,HIGH); | ||
| + | digitalWrite(12,HIGH); | ||
| + | digitalWrite(13,HIGH); | ||
| + | digitalWrite(5,HIGH); | ||
| + | digitalWrite(6,HIGH); | ||
| + | digitalWrite(7,HIGH); | ||
| + | digitalWrite(8,HIGH); | ||
| + | digitalWrite(9,HIGH); | ||
| + | digitalWrite(10,HIGH); | ||
| + | digitalWrite(1,HIGH); | ||
| + | digitalWrite(2,HIGH); | ||
| + | digitalWrite(3,HIGH); | ||
| + | } | ||
| + | |||
| + | |||
| + | } | ||
| + | |||
| + | |||
| + | } | ||
| + | |||
| + | </pre> | ||
==L'équipe== | ==L'équipe== | ||
Version du 17 janvier 2019 à 15:27
Présentation
Réalisation d'une lampe qui ajuste son intensité lumineuse en fonction de la luminosité ambiante afin de réaliser des économies d'énergies.
Conception
Matériel
- Carte Arduino UNO
- 3 LED RGB
- 1 Photorésistance
- 1 Bouton poussoir
- 11 Résistances (10 de 220Ω pour les LED et 1 de 10kΩ pour le bouton poussoir)
Code
int analogPin= A0;
int sensorValue= 0;
int outputValue=0;
bool interuValue=false;
void setup() {
// put your setup code here, to run once:
Serial.begin(9600);
pinMode(analogPin, OUTPUT);
//led1
pinMode(11,OUTPUT);
pinMode(12,OUTPUT);
pinMode(13,OUTPUT);
//led2
pinMode(5,OUTPUT);
pinMode(6,OUTPUT);
pinMode(7,OUTPUT);
//led3
pinMode(8,OUTPUT);
pinMode(9,OUTPUT);
pinMode(10,OUTPUT);
//led4
pinMode(1,OUTPUT);
pinMode(2,OUTPUT);
pinMode(3,OUTPUT);
//interrupteur
pinMode(4,INPUT);
//initialisation des leds
digitalWrite(11,HIGH);
digitalWrite(12,HIGH);
digitalWrite(13,HIGH);
digitalWrite(5,HIGH);
digitalWrite(6,HIGH);
digitalWrite(7,HIGH);
digitalWrite(8,HIGH);
digitalWrite(9,HIGH);
digitalWrite(10,HIGH);
digitalWrite(1,HIGH);
digitalWrite(2,HIGH);
digitalWrite(3,HIGH);
}
void loop() {
//etat photoresistance
sensorValue=analogRead(analogPin);
//etat interrupteur
interuValue=digitalRead(4);
Serial.println(sensorValue);
if (interuValue==0)
{
digitalWrite(11,HIGH);
digitalWrite(12,HIGH);
digitalWrite(13,HIGH);
digitalWrite(5,HIGH);
digitalWrite(6,HIGH);
digitalWrite(7,HIGH);
digitalWrite(8,HIGH);
digitalWrite(9,HIGH);
digitalWrite(10,HIGH);
digitalWrite(1,HIGH);
digitalWrite(2,HIGH);
digitalWrite(3,HIGH);
}
else {
if (sensorValue>=0 && sensorValue<=10){
digitalWrite(11,LOW);
digitalWrite(12,LOW);
digitalWrite(13,LOW);
digitalWrite(5,LOW);
digitalWrite(6,LOW);
digitalWrite(7,LOW);
digitalWrite(8,LOW);
digitalWrite(9,LOW);
digitalWrite(10,LOW);
digitalWrite(1,LOW);
digitalWrite(2,LOW);
digitalWrite(3,LOW);
}
else if (sensorValue>=10 && sensorValue<=20){
digitalWrite(11,LOW);
digitalWrite(12,LOW);
digitalWrite(13,LOW);
digitalWrite(5,LOW);
digitalWrite(6,LOW);
digitalWrite(7,LOW);
digitalWrite(8,HIGH);
digitalWrite(9,HIGH);
digitalWrite(10,HIGH);
digitalWrite(1,HIGH);
digitalWrite(2,HIGH);
digitalWrite(3,HIGH);
}
else if (sensorValue>=20 && sensorValue<=30){
digitalWrite(11,LOW);
digitalWrite(12,LOW);
digitalWrite(13,LOW);
digitalWrite(5,HIGH);
digitalWrite(6,HIGH);
digitalWrite(7,HIGH);
digitalWrite(8,HIGH);
digitalWrite(9,HIGH);
digitalWrite(10,HIGH);
digitalWrite(1,HIGH);
digitalWrite(2,HIGH);
digitalWrite(3,HIGH);
}
else{
digitalWrite(11,HIGH);
digitalWrite(12,HIGH);
digitalWrite(13,HIGH);
digitalWrite(5,HIGH);
digitalWrite(6,HIGH);
digitalWrite(7,HIGH);
digitalWrite(8,HIGH);
digitalWrite(9,HIGH);
digitalWrite(10,HIGH);
digitalWrite(1,HIGH);
digitalWrite(2,HIGH);
digitalWrite(3,HIGH);
}
}
}
L'équipe
- DELIN Félix
- HOCQUETTE Thibaut
- DUFFAU Quentin
- PHELEPP Yoann
