Calibration

This example demonstrates one techinque for calibrating sensor input. The LaunchPad board takes sensor readings for five seconds during the startup, and tracks the highest and lowest values it gets. These sensor readings during the first five seconds of the sketch execution define the minimum and maximum of expected values for the readings taken during the loop.

Hardware Required

  • LaunchPad board

  • (1) LED

  • (1) analog sensor (a photocell will do)

  • (1) 10K ohm resistor

  • (1) 220 ohm resistor

  • Breadboard

  • Hook-up wire

Relevant Groundwork

Analog sensor (e.g. potentiometer, light sensor) on analog input 3. LED on digital pin 2.

Circuit

Calibration bb

Image developed using Fritzing. For more circuit examples, see the Fritzing project page.

Connect an LED to digital pin 2 with a 220 ohm current limiting resistor. Connect a photocell to 3V and then to analog pin 3 with a 10K ohm resistor as a reference to ground.

Schematic

Calibration schem

Code Explanation

Before the setup, you set initial values for the minimum and maximum like so:

int sensorMin = 1023;        // minimum sensor value
int sensorMax = 0;           // maximum sensor value

These may seem backwards. Initially, you set the minimum high and read for anything lower than that, saving it as the new minimum. Likewise, you set the maximum low and read for anything higher as the new maximum, like so:

// calibrate during the first five seconds
while (millis() < 5000) {
   sensorValue = analogRead(sensorPin);

   // record the maximum sensor value
   if (sensorValue > sensorMax) {
     sensorMax = sensorValue;
   }

   // record the minimum sensor value
   if (sensorValue < sensorMin) {
     sensorMin = sensorValue;
   }
}

This way, any further readings you take can be mapped to the range between this minimum and maximum like so:

// apply the calibration to the sensor reading
sensorValue = map(sensorValue, sensorMin, sensorMax, 0, 255);

Code

Here’s the whole program:

/*
  Calibration

  Demonstrates one technique for calibrating sensor input.  The
  sensor readings during the first five seconds of the sketch
  execution define the minimum and maximum of expected values
  attached to the sensor pin.

  The sensor minimum and maximum initial values may seem backwards.
  Initially, you set the minimum high and listen for anything
  lower, saving it as the new minimum. Likewise, you set the
  maximum low and listen for anything higher as the new maximum.

  The circuit:
  * Analog sensor (potentiometer will do) attached to analog input 0
  * LED attached from digital pin 9 to ground

  created 29 Oct 2008
  By David A Mellis
  modified 30 Aug 2011
  By Tom Igoe

  This example code is in the public domain.

*/

// These constants won't change:
const int sensorPin = A3;    // pin that the sensor is attached to
const int ledPin = 2;        // pin that the LED is attached to

// variables:
int sensorValue = 0;         // the sensor value
int sensorMin = 1023;        // minimum sensor value
int sensorMax = 0;           // maximum sensor value

void setup() {
  // turn on LED to signal the start of the calibration period:
  pinMode(14, OUTPUT);
  digitalWrite(14, HIGH);

  // calibrate during the first five seconds
  while (millis() < 5000) {
    sensorValue = analogRead(sensorPin);

    // record the maximum sensor value
    if (sensorValue > sensorMax) {
      sensorMax = sensorValue;
    }

    // record the minimum sensor value
    if (sensorValue < sensorMin) {
      sensorMin = sensorValue;
    }
  }

  // signal the end of the calibration period
  digitalWrite(14, LOW);
}

void loop() {
  // read the sensor:
  sensorValue = analogRead(sensorPin);

  // apply the calibration to the sensor reading
  sensorValue = map(sensorValue, sensorMin, sensorMax, 0, 255);

  // in case the sensor value is outside the range seen during calibration
  sensorValue = constrain(sensorValue, 0, 255);

  // fade the LED using the calibrated value:
  analogWrite(ledPin, sensorValue);
}

Working Video

Try it out

  • Calibrate a different sensor.

See Also

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