Team:Brown/Modeling/Light device

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==Illumination device design==
==Illumination device design==
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This prototype device uses two super-bright blue LEDs (470nm, 2400mcd) to illuminate cells. It will be used to drive the LOVtap promoter, which is responsive to blue light. The device is controlled by an open-source Arduino Duemilanove microcontroller and can be custom-programmed to cycle through various light states for various amounts of time.  
This prototype device uses two super-bright blue LEDs (470nm, 2400mcd) to illuminate cells. It will be used to drive the LOVtap promoter, which is responsive to blue light. The device is controlled by an open-source Arduino Duemilanove microcontroller and can be custom-programmed to cycle through various light states for various amounts of time.  

Revision as of 06:00, 25 October 2010

Illumination device design

Contents

Prototype light device.jpg

This prototype device uses two super-bright blue LEDs (470nm, 2400mcd) to illuminate cells. It will be used to drive the LOVtap promoter, which is responsive to blue light. The device is controlled by an open-source Arduino Duemilanove microcontroller and can be custom-programmed to cycle through various light states for various amounts of time.

The Arduino Duemilanove

The Arduino Duemilanove ("2009") is a microcontroller board based on the ATmega328 (datasheet)The Duemilanove has 14 digital input/output pins (of which 6 can be used as PWM outputs), 6 analog inputs, a 16 MHz crystal oscillator, a USB connection, a power jack, an ICSP header, and a reset button.

  • Operating Voltage - 5V
  • DC Current per I/O Pin - 40 mA

Calculating the proper resistor

The LED we used has a forward voltage of typically 3.5V with a max of 4V. The Arduino Duemilanove outputs at 5V. Thus, we used the resistor calculator located [http://metku.net/index.html?sect=view&n=1&path=mods/ledcalc/index_eng here] to calculate the proper resistors to use:

Ledcalculation.jpg

We only had a limited number of resistor types in stock, so we used a 56 Ohm resistor. The light output was not as bright as we wanted, so we switched to a 37 Ohm resistor. This may stress the LED more than usual, but should be enough resistance that it will not easily burn out.

Source code

/*
Light Induction Device
Turns on an LED on for a specific amount of time, then off, and repeats
The circuit:
* LED connected from digital pin 13 to ground.
*/

int ledPin = 13; // LED connected to digital pin 13
int ledPin2 = 12; // LED connected to digital pin 12
// The setup() method runs once, when the sketch starts
void setup() {
// initialize the digital pin as an output:
pinMode(ledPin, OUTPUT);
pinMode(ledPin2, OUTPUT);
}
// the loop() method runs over and over again
void loop()
{
digitalWrite(ledPin, HIGH); // set the LED1 on
digitalWrite(ledPin2, HIGH); // set the LED2 on
delay(14400000); // wait for 4 hours
digitalWrite(ledPin, LOW); // set the LED1 off
digitalWrite(ledPin2, LOW); // set the LED2 off
delay(14400000); // wait for 4 hours
}