// Use this code to test your motor with the Arduino board:
// if you need PWM, just use the PWM outputs on the Arduino
// and instead of digitalWrite, you should use the analogWrite command
// --------------------------------------------------------------------------- Motors
int motor_left[] = {3,8};
int motor_right[] = {12, 7};
// --------------------------------------------------------------------------- Setup
void setup() {
Serial.begin(9600);
// Setup motors
int i;
for(i = 0; i < 2; i++){
pinMode(motor_left[i], OUTPUT);
pinMode(motor_right[i], OUTPUT);
}
}
// --------------------------------------------------------------------------- Loop
void loop() {
drive_forward();
delay(1000);
motor_stop();
Serial.println("1");
drive_backward();
delay(1000);
motor_stop();
Serial.println("2");
turn_left();
delay(1000);
motor_stop();
Serial.println("3");
turn_right();
delay(1000);
motor_stop();
Serial.println("4");
motor_stop();
delay(1000);
motor_stop();
Serial.println("5");
}
// --------------------------------------------------------------------------- Drive
void motor_stop(){
digitalWrite(motor_left[0], LOW);
digitalWrite(motor_left[1], LOW);
digitalWrite(motor_right[0], LOW);
digitalWrite(motor_right[1], LOW);
delay(25);
}
void drive_forward(){
digitalWrite(motor_left[0], HIGH);
digitalWrite(motor_left[1], LOW);
digitalWrite(motor_right[0], HIGH);
digitalWrite(motor_right[1], LOW);
}
void drive_backward(){
digitalWrite(motor_left[0], LOW);
digitalWrite(motor_left[1], HIGH);
digitalWrite(motor_right[0], LOW);
digitalWrite(motor_right[1], HIGH);
}
void turn_left(){
digitalWrite(motor_left[0], LOW);
digitalWrite(motor_left[1], HIGH);
digitalWrite(motor_right[0], HIGH);
digitalWrite(motor_right[1], LOW);
}
void turn_right(){
digitalWrite(motor_left[0], HIGH);
digitalWrite(motor_left[1], LOW);
digitalWrite(motor_right[0], LOW);
digitalWrite(motor_right[1], HIGH);
}
Sunday, 3 January 2016
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