benoit-roussel_turntable/turntable-sensors/turntable-sensors.ino


#include <Wire.h>
#include <VL53L0X.h>

// IR SENSORS

#define XSHUT_pin4 8 //not required for address change
#define XSHUT_pin3 9
#define XSHUT_pin2 10
#define XSHUT_pin1 11

//ADDRESS_DEFAULT 0b0101001 or 41
#define Sensor4_newAddress 41  //not required address change
#define Sensor3_newAddress 42
#define Sensor2_newAddress 43
#define Sensor1_newAddress 44

// IR sensors
VL53L0X sensor4;
VL53L0X sensor3;
VL53L0X sensor2;
VL53L0X sensor1;


// bool last_sensor1_state = 0;
// bool last_sensor2_state = 0;
// bool last_sensor3_state = 0;
// bool last_sensor4_state = 0;

void setup() {
  Serial.begin(115200);
  // Set the maximum speed in steps per second:

  // VL53L0X
  
  /*WARNING*/
  //Shutdown pins of VL53L0X ACTIVE-LOW-ONLY NO TOLERANT TO 5V will fry them
  pinMode(XSHUT_pin1, OUTPUT);
  pinMode(XSHUT_pin2, OUTPUT);
  pinMode(XSHUT_pin3, OUTPUT);
  pinMode(XSHUT_pin4, OUTPUT);
  
  digitalWrite(XSHUT_pin1, LOW);
  digitalWrite(XSHUT_pin2, LOW);
  digitalWrite(XSHUT_pin3, LOW);
  digitalWrite(XSHUT_pin4, LOW);

  Wire.begin();

  //Change address of sensor and power up next one

  pinMode(XSHUT_pin1, INPUT);
  sensor1.init();
  sensor1.setAddress(Sensor1_newAddress);
  delay(10);
  
  pinMode(XSHUT_pin2, INPUT);
  sensor2.init();
  sensor2.setAddress(Sensor2_newAddress);
  delay(10);
  
  pinMode(XSHUT_pin3, INPUT);
  sensor3.init();
  sensor3.setAddress(Sensor3_newAddress);
  delay(10);

  pinMode(XSHUT_pin4, INPUT);
  sensor4.init();
  sensor4.setAddress(Sensor4_newAddress);
  delay(10);


  sensor1.setTimeout(0);
  sensor2.setTimeout(0);
  sensor3.setTimeout(0);
  sensor4.setTimeout(0);

  // // if (!sensor.init())
  // // {
  // //   Serial.println("Failed to detect and initialize  sensor!");
  // //   while (1) {}
  // // }
  sensor1.startContinuous();
  sensor2.startContinuous();
  sensor3.startContinuous();
  sensor4.startContinuous();
}

void loop() {
  
    int state1 = sensor1.readRangeContinuousMillimeters();
    Serial.print("s1 : ");
    Serial.print(state1);
    Serial.print(" | ");
    
    int state2 = sensor2.readRangeContinuousMillimeters();
    Serial.print("s2 : ");
    Serial.print(state2);
    Serial.print(" | ");
    
    int state3 = sensor3.readRangeContinuousMillimeters();
    Serial.print("s3 : ");
    Serial.print(state3);
    Serial.print(" | ");

    int state4 = sensor4.readRangeContinuousMillimeters();
    Serial.print("s4 : ");
    Serial.println(state4);
  
  
  // if (sensor1.timeoutOccurred()) { Serial.print(" TIMEOUT"); }
  // if (sensor2.timeoutOccurred()) { Serial.print(" TIMEOUT"); }
  // if (sensor3.timeoutOccurred()) { Serial.print(" TIMEOUT"); }
  // if (sensor4.timeoutOccurred()) { Serial.print(" TIMEOUT"); }
}
added ir ToF sensors VL53L0X 2024-05-24 09:54:52 +02:00
			`#include <Wire.h>`
			`#include <VL53L0X.h>`

			`// IR SENSORS`

			`#define XSHUT_pin4 8 //not required for address change`
			`#define XSHUT_pin3 9`
			`#define XSHUT_pin2 10`
			`#define XSHUT_pin1 11`

			`//ADDRESS_DEFAULT 0b0101001 or 41`
			`#define Sensor4_newAddress 41 //not required address change`
			`#define Sensor3_newAddress 42`
			`#define Sensor2_newAddress 43`
			`#define Sensor1_newAddress 44`

			`// IR sensors`
			`VL53L0X sensor4;`
			`VL53L0X sensor3;`
			`VL53L0X sensor2;`
			`VL53L0X sensor1;`


			`// bool last_sensor1_state = 0;`
			`// bool last_sensor2_state = 0;`
			`// bool last_sensor3_state = 0;`
			`// bool last_sensor4_state = 0;`

motor is running, potentiameter vary the motor speed 2024-02-22 15:06:40 +01:00			`void setup() {`
			`Serial.begin(115200);`
			`// Set the maximum speed in steps per second:`
added ir ToF sensors VL53L0X 2024-05-24 09:54:52 +02:00
			`// VL53L0X`

			`/WARNING/`
			`//Shutdown pins of VL53L0X ACTIVE-LOW-ONLY NO TOLERANT TO 5V will fry them`
			`pinMode(XSHUT_pin1, OUTPUT);`
			`pinMode(XSHUT_pin2, OUTPUT);`
			`pinMode(XSHUT_pin3, OUTPUT);`
			`pinMode(XSHUT_pin4, OUTPUT);`

			`digitalWrite(XSHUT_pin1, LOW);`
			`digitalWrite(XSHUT_pin2, LOW);`
			`digitalWrite(XSHUT_pin3, LOW);`
			`digitalWrite(XSHUT_pin4, LOW);`

			`Wire.begin();`

			`//Change address of sensor and power up next one`

			`pinMode(XSHUT_pin1, INPUT);`
			`sensor1.init();`
			`sensor1.setAddress(Sensor1_newAddress);`
			`delay(10);`

			`pinMode(XSHUT_pin2, INPUT);`
			`sensor2.init();`
			`sensor2.setAddress(Sensor2_newAddress);`
			`delay(10);`

			`pinMode(XSHUT_pin3, INPUT);`
			`sensor3.init();`
			`sensor3.setAddress(Sensor3_newAddress);`
			`delay(10);`

			`pinMode(XSHUT_pin4, INPUT);`
			`sensor4.init();`
			`sensor4.setAddress(Sensor4_newAddress);`
			`delay(10);`


			`sensor1.setTimeout(0);`
			`sensor2.setTimeout(0);`
			`sensor3.setTimeout(0);`
			`sensor4.setTimeout(0);`

			`// // if (!sensor.init())`
			`// // {`
			`// // Serial.println("Failed to detect and initialize sensor!");`
			`// // while (1) {}`
			`// // }`
			`sensor1.startContinuous();`
			`sensor2.startContinuous();`
			`sensor3.startContinuous();`
			`sensor4.startContinuous();`
motor is running, potentiameter vary the motor speed 2024-02-22 15:06:40 +01:00			`}`

			`void loop() {`

added ir ToF sensors VL53L0X 2024-05-24 09:54:52 +02:00			`int state1 = sensor1.readRangeContinuousMillimeters();`
			`Serial.print("s1 : ");`
			`Serial.print(state1);`
			`Serial.print(" \| ");`

			`int state2 = sensor2.readRangeContinuousMillimeters();`
			`Serial.print("s2 : ");`
			`Serial.print(state2);`
			`Serial.print(" \| ");`

			`int state3 = sensor3.readRangeContinuousMillimeters();`
			`Serial.print("s3 : ");`
			`Serial.print(state3);`
			`Serial.print(" \| ");`

			`int state4 = sensor4.readRangeContinuousMillimeters();`
			`Serial.print("s4 : ");`
			`Serial.println(state4);`


			`// if (sensor1.timeoutOccurred()) { Serial.print(" TIMEOUT"); }`
			`// if (sensor2.timeoutOccurred()) { Serial.print(" TIMEOUT"); }`
			`// if (sensor3.timeoutOccurred()) { Serial.print(" TIMEOUT"); }`
			`// if (sensor4.timeoutOccurred()) { Serial.print(" TIMEOUT"); }`
motor is running, potentiameter vary the motor speed 2024-02-22 15:06:40 +01:00			`}`