Difference between revisions of "Arduino: While Statement Conditional"

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(Created page with "Sumber: https://docs.arduino.cc/built-in-examples/control-structures/WhileStatementConditional Sometimes you want everything in the program to stop while a given condition...")
 
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Sometimes you want everything in the program to stop while a given condition is true. You can do this using a while loop. This example shows how to use a while loop to calibrate the value of an analog sensor.
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Terkadang kita ingin semua yang ada di program berhenti saat kondisi tertentu benar. Kita dapat melakukan ini menggunakan while loop. Contoh ini menunjukkan cara menggunakan while loop untuk mengkalibrasi nilai sensor analog.
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In the main loop, the sketch below reads the value of a photoresistor on analog pin 0 and uses it to fade an LED on pin 9. But while a button attached to digital pin 2 is pressed, the program runs a method called calibrate() that looks for the highest and lowest values of the analog sensor. When you release the button, the sketch continues with the main loop.
 
In the main loop, the sketch below reads the value of a photoresistor on analog pin 0 and uses it to fade an LED on pin 9. But while a button attached to digital pin 2 is pressed, the program runs a method called calibrate() that looks for the highest and lowest values of the analog sensor. When you release the button, the sketch continues with the main loop.
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Pada loop utama, sketsa di bawah ini membaca nilai fotoresistor pada pin analog 0 dan menggunakannya untuk memudarkan LED pada pin 9. Tetapi saat tombol yang terpasang pada pin digital 2 ditekan, program menjalankan metode yang disebut kalibrasi() yang mencari nilai tertinggi dan terendah dari sensor analog. Saat Anda melepaskan tombol, sketsa berlanjut dengan loop utama.
  
 
This technique lets you update the maximum and minimum values for the photoresistor when the lighting conditions change.
 
This technique lets you update the maximum and minimum values for the photoresistor when the lighting conditions change.

Revision as of 09:14, 3 October 2022

Sumber: https://docs.arduino.cc/built-in-examples/control-structures/WhileStatementConditional


Terkadang kita ingin semua yang ada di program berhenti saat kondisi tertentu benar. Kita dapat melakukan ini menggunakan while loop. Contoh ini menunjukkan cara menggunakan while loop untuk mengkalibrasi nilai sensor analog.


In the main loop, the sketch below reads the value of a photoresistor on analog pin 0 and uses it to fade an LED on pin 9. But while a button attached to digital pin 2 is pressed, the program runs a method called calibrate() that looks for the highest and lowest values of the analog sensor. When you release the button, the sketch continues with the main loop.

Pada loop utama, sketsa di bawah ini membaca nilai fotoresistor pada pin analog 0 dan menggunakannya untuk memudarkan LED pada pin 9. Tetapi saat tombol yang terpasang pada pin digital 2 ditekan, program menjalankan metode yang disebut kalibrasi() yang mencari nilai tertinggi dan terendah dari sensor analog. Saat Anda melepaskan tombol, sketsa berlanjut dengan loop utama.

This technique lets you update the maximum and minimum values for the photoresistor when the lighting conditions change.

Hardware Required

  • Arduino Board
  • pushbutton or switch
  • photoresistor or another analog sensor
  • 2 10k ohm resistor
  • breadboard

Circuit

Connect your analog sensor (e.g. potentiometer, light sensor) on analog input 2 with a 10K ohm resistor to ground. Connect your button to digital pin, again with a 10K ohm resistor to ground. Connect your LED to digital pin 9, with a 220 ohm resistor in series.

circuit

Schematic

schematic

Code

/*
  Conditionals - while statement
  This example demonstrates the use of  while() statements.
  While the pushbutton is pressed, the sketch runs the calibration routine.
  The sensor readings during the while loop define the minimum and maximum of
  expected values from the photoresistor.

  This is a variation on the calibrate example.
  The circuit:
  - photoresistor connected from +5V to analog in pin 0
  - 10 kilohm resistor connected from ground to analog in pin 0
  - LED connected from digital pin 9 to ground through 220 ohm resistor
  - pushbutton attached from pin 2 to +5V
  - 10 kilohm resistor attached from pin 2 to ground

  created 17 Jan 2009
  modified 30 Aug 2011
  by Tom Igoe
  modified 20 Jan 2017
  by Arturo Guadalupi
  This example code is in the public domain.
  http://www.arduino.cchttps://www.arduino.cc/en/Tutorial/WhileLoop
*/

// These constants won't change:
const int sensorPin = A0;       // pin that the sensor is attached to
const int ledPin = 9;           // pin that the LED is attached to
const int indicatorLedPin = 13; // pin that the built-in LED is attached to
const int buttonPin = 2;        // pin that the button is attached to

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

void setup() {
  // set the LED pins as outputs and the switch pin as input:
  pinMode(indicatorLedPin, OUTPUT);
  pinMode(ledPin, OUTPUT);
  pinMode(buttonPin, INPUT);
}

void loop() {
  // while the button is pressed, take calibration readings:
  while (digitalRead(buttonPin) == HIGH) {
    calibrate();
  }
  // signal the end of the calibration period
  digitalWrite(indicatorLedPin, LOW);
  // 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);
}

void calibrate() {
  // turn on the indicator LED to indicate that calibration is happening:
  digitalWrite(indicatorLedPin, HIGH);
  // read the sensor:
  sensorValue = analogRead(sensorPin);
  // record the maximum sensor value
  if (sensorValue > sensorMax) {
    sensorMax = sensorValue;
  }
  // record the minimum sensor value
  if (sensorValue < sensorMin) {
    sensorMin = sensorValue;
  }
}


Referensi