Tag Archives: LED

Audio Spectrum Analyzer

There is a great tutorial on how to setup and use a 2×16 LCD on the Arduino website:
http://arduino.cc/en/Tutorial/LiquidCrystal

Here’s a good explanation of FFT theory:
http://www.arduinoos.com/2010/10/fast-fourier-transform-fft/

My pinout is a little different because I wanted to save as many PWM pins to add servo control for the next stage of this project.  I’ve been tinkering with the idea of moving physical objects around based on audio input, instead of just showing levels on a display.

To visualize the frequency levels of the incoming audio signal I use the 8-bit Fast Fourier transform code which is discussed here:
http://forum.arduino.cc/index.php/topic,38153.0.html

Honestly, I’m not convinced that what I’m seeing on the display is an accurate representation of the audio spectrum that I’m listening to, but it looks pretty cool and that’s all I really care about at this point.  There is hardware available that would produce much more accurate results than this software.  There is a “Color Organ” project on the Make website that I’d like to build someday:
http://blog.makezine.com/2010/10/18/circuit-skills-led-color-organ-spon/

Additional Reading:
http://forum.arduino.cc/index.php?topic=38153.0
http://forum.arduino.cc/index.php?topic=182169.0

Code and libraries on GitHub

Blinky Lights

This was a fun and easy project to help me wrap my mind around some basic electronics principles.

P1020830 P1020832

The circuit is made of a few resistors, transistors, capacitors and LEDs.  I got the circuit diagram from: http://wild-bohemian.com/electronics/flasher.html

http://wild-bohemian.com/electronics/flasher.html

http://wild-bohemian.com/electronics/flasher.html

I used Fritzing to help me design the layout.  Grab my file here.