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--- arduino:arduino_crash_course:analog_input [2012/11/06 01:05] – mithat
+++ arduino:arduino_crash_course:analog_input [2017/12/06 01:17] – [Night light] mithat
@@ Line 1: / Line 1: @@
 ====== Analog Input ======
-As we have seen, an Arduino digital input is one that have one of two states: HIGH or LOW. Most Arduino implementations also permit you to connect an input whose value can be any value between 0 volts and the FIXME power-supply voltage and then convert the input level to an internal digital value between 0 an 1204. The Arduino literature refers to these as "analog" input. The process of coverting a true analog signal to a digital number is called **analog to digital conversion** (**ADC**).
+As we have seen, an Arduino digital input is one that have one of two states: HIGH or LOW. Most Arduino implementations also permit you to connect an input whose value can be any value between 0 volts and (by default) the power-supply voltage, and then convert the input level to an integer value between 0 an 1023. The Arduino literature refers to these as "analog" inputs. The process of converting a physical analog signal to a digital representation is called **analog to digital conversion** (**ADC**).
-Consult the documentation for your specific Arduino board to detmine which pins support analog input.
+Consult the documentation for your specific Arduino board to determine which pins support analog input. On the Arduino UNO, inputs A0 through A5 can be used as analog inputs.
-===== Night Light =====
+===== Night light =====
 The following example uses an analog input and a digital output to build a simple night-light. A cadmium-sulfide photo-sensitive resistor (commonly called CdS cells) is used in a voltage divider setup to produce a voltage that changes with the amount of light incident on the sensor. If the voltage is above a certain threshold, the Arduino will turn on the LED.
 <WRAP center round tip 60%>
-CdS cells are notoriously tweaky devices. A lot of experimentation with your particular cell will probably be required to see what your circuit is actually doing--quite likely requiring the use of the serial communication to report the ADC values.
+CdS cells are notoriously tweaky devices. A lot of experimentation with your particular cell will probably be required to see what your circuit is actually doing---quite likely requiring the use of the serial communication to report the ADC values (see [[light_meter|this]] for an example).
-There are more reliable and calibrated light-level sensors available that may be a better (but significanly more expensive!) choice if you wish not to deal with the tweakiness of Cds cells.
+There are more reliable and calibrated light-level sensors available that may be a better (but significantly more expensive!) choice if you wish not to deal with the tweakiness of Cds cells.
 </WRAP>
+FIXME We need a circuit diagram
+<file c NightLight.ino>
+/*
+ NightLight
+ Turn an LED on when the ambient light is below a certain value.
+ */
+const int lightThreshold = 800;  // value below which LED turns on
+const int inputPin = A0;         // use analog 0 (A0) as input pin
+const int ledPin = 13;           // connect the LED to pin 13
+int lightLevel = 0;              // used to store the input value
+void setup() {
+  pinMode(ledPin, OUTPUT);       // make LED's pin an output
+}
+void loop() {
+  lightLevel = analogRead(inputPin);  // get an analog reading
+  if (lightLevel <= lightThreshold)
+    digitalWrite(ledPin, HIGH);       // turn the LED on
+  else
+    digitalWrite(ledPin, LOW);        // turn the LED off
+}
+</file>