Différences entre versions de « Projets:Finger Starter »
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== Description du projet == | == Description du projet == | ||
Version du 17 juin 2021 à 10:49
Description du projet
Le projet est de réaliser un finger starter proposé par Inmoov : finger starter
Cahier des charges
Utiliser un kit de capteurs afin de contrôler le finger starter de manière originale.
Analyse de l'existant
http://inmoov.fr/finger-starter/
Equipe (Porteur de projet et contributeurs)
- Concepteurs/contributeurs : Alix
- Fabmanager référent : Yo
- Responsable de documentation : Yo
Matériel nécessaire
- 1 Finger Starter à imprimer en 3D : http://inmoov.fr/finger-starter/
- Des fils de prototypage
- Platine d'essai
- kit de capteurs : electronic component kits
Outils nécessaires
- Un ordinateur
Coût
- - de 50€
Fichiers source
Détail des capteurs : Détail des capteurs
Image des différentes versions réalisée avec le code correspondant
- 1 - Bouton
#include <Servo.h> Servo myservo; // create servo object to control a servo const int servoPin = 9; // Digital PWM pin used to control the servo const int buttonPin = 8; // Digital pin to attach the button int val = 0; // variable to read the value from the button void setup() { myservo.attach(servoPin); // attaches the servo to "servoPin" } void loop() { val = digitalRead(buttonPin); // gets button current state if (val == 0) { // checks if the button is pressed myservo.write(120); // lifts finger } else { myservo.write(10); // lowers finger } delay(30); // waits for servo to get there }
- 2 - Photo-interrupteur
#include <Servo.h> Servo myservo; // create servo object to control a servo const int servoPin = 9; // Digital PWM used to control the servo const int photoPin = 8; // Digital pin used to control the photo interruptor int val = 0; // variable to read the value from the photo interruptor void setup() { myservo.attach(servoPin); // attaches the servo to "servoPin" } void loop() { val = digitalRead(photoPin); // reads value from photo interruptor if (val == 1) { // check if the photo interruptor is blocked myservo.write(120); // lifts finger } else { myservo.write(10); // lowers finger } delay(30); // waits for servo to get there }
- 3 - Photorésistance
#include <Servo.h> Servo myservo; // create servo object to control a servo const int photoResistPin = A0; // Analog pin used to connect the photo resistor const int servoPin = 9; // Digital PWM used to control the servo int light = 0; // variable to read the value from the photo resistor pin void setup() { myservo.attach(servoPin); // attaches the servo to "servoPin" pinMode(photoResistPin, INPUT); // puts the photo-resistor pin in INPUT } void loop() { light = analogRead(A0); // reads value from photo-resistor light = map(light, 0, 1023, 180, 0); // scales it to be usable by the servo myservo.write(light); // sets the servo position according to the value delay(30); // waits for the servo to get there }
- 4 - Joystick
#include <Servo.h> Servo myservo; // create servo object to control a servo const int joystickPin = A0; // Analog In pin used to connect the joystick const int servoPin = 9; // Digital PWM used to control the servo int rotation = 0; // variable to read the X or Y value from the joystick void setup() { myservo.attach(servoPin); // attaches the servo to "servoPin" pinMode(joystickPin, INPUT); // puts the joystick pin in INPUT } void loop() { rotation = analogRead(A0); // reads value from joystick rotation = map(rotation, 0, 1023, 180, 0); // scales it to be usable by the servo myservo.write(rotation); // sets the servo position according to the value delay(30); // waits for the servo to get there }