LDR and the JeeNode

Your ads will be inserted here by

Easy Plugin for AdSense.

Please go to the plugin admin page to
Paste your ad code OR
Suppress this ad slot.

In a previous post I gave an example of an LDR with the Arduino. In case you want to use it with a JeeNode you can connect the LDR between the AIO and GND. JeeLabs has a great page about LDR in combination with the on-board RF12 chipset to transmit the data between two nodes. A first step to your own Wireless Sensor Network (WSN).

I’ll give a small code sample just to read the measure light values when the LDR is connect between AIO (A) and GND (G) of port 3 of your JeeNode. For the extended code version please visit the original page at JeeLabs.

#include <Ports.h>
#include <RF12.h>

Port ldr (3);

void setup () {

void loop()
    // Measure value; convert the 0..1023 value to a 0.255 value
     byte value = 255 - ldr.anaRead() / 4;

    // Print the 'light  value'
    Serial.println((int) value);

   // wait for a second





Is there light? LDR sensor input

Your ads will be inserted here by

Easy Plugin for AdSense.

Please go to the plugin admin page to
Paste your ad code OR
Suppress this ad slot.

You can imagine it is helpful to know when it gets dark in or around the house. Knowing this you could turn on the lights automatically.  There are different sensors you can use to measure light intensity. At the moment I have some LDR (light dependent resistor)  elements to do some tests.

An LDR has a  high resistance when no light is sensed, the resistance will decrease when the sensor is illuminated (see also).

A basic test scenario is to connect an LDR together with a 10K Ohm resistor to your Arduino.

Together with the code snippet below you can experiment with more or less light. I don’t know whether the printed values are close to reality but you can give it a try.

/* Photocell simple testing sketch.

Connect one end of the photocell to 5V, the other end to Analog 0.
Then connect one end of a 10K resistor from Analog 0 to ground

For more information see www.ladyada.net/learn/sensors/cds.html
Modified by M.A. de Pablo. October 18, 2009.
Thanks to Grumpy_Mike for equations improvement.

int photocellPin0 = 0;     // the cell and 10K pulldown are connected to a0
int photocellReading0;     // the analog reading from the analog resistor divider
float Res0=10.0;		  // Resistance in the circuit of sensor 0 (KOhms)
// depending of the Resistance used, you could measure better at dark or at bright conditions.
// you could use a double circuit (using other LDR connected to analog pin 1) to have fun testing the sensors.
// Change the value of Res0 depending of what you use in the circuit

void setup(void) {
  // We'll send debugging information via the Serial monitor

void loop(void) {
  photocellReading0 = analogRead(photocellPin0);   // Read the analogue pin
  float Vout0=photocellReading0*0.0048828125;	// calculate the voltage
  int lux0=500/(Res0*((5-Vout0)/Vout0));	     // calculate the Lux
  Serial.print("Luminosidad 0: ");		     // Print the measurement (in Lux units) in the screen
  Serial.print(" Lux\t");
  Serial.print("Voltage: ");			     // Print the calculated voltage returned to pin 0
  Serial.print(" Volts\t");
  Serial.print("Output: ");
  Serial.print(photocellReading0);		   // Print the measured level at pin 0
  Serial.print("Ligth conditions: ");		// Print an approach to ligth conditions
  if (photocellReading0 < 10) {
    Serial.println(" - Dark");
  } else if (photocellReading0 < 200) {
    Serial.println(" - Dim");
  } else if (photocellReading0 < 500) {
    Serial.println(" - Light");
  } else if (photocellReading0 < 800) {
    Serial.println(" - Bright");
  } else {
    Serial.println(" - Very bright");

Ladyada has a page with information about photocells, light, lux and Arduino. This page has a great sample scheme including a code example.