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Wearable Light Organ
Weekend Project
This project is part of RadioShack's The Great Create.
Turn a few common components into a wearable dance floor light show!
- Author: Steve Hobley
- Time required: 2 hours
- Difficulty: Moderate
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This simple, wearable circuit uses an operational amplifier (or "op-amp") chip to convert sound into light. An LM324 op-amp and a transistor boost input from a mini condenser microphone to light a series of LEDs. Watch it blink to the beat of your favorite music.
Check out more Weekend Projects.
Sections
- Gather the parts
- Solder the mic, socket, and power
- Add the input stage resistors and capacitors
- Add the the second stage resistors
- Final assembly - and testing!
Tools
- Soldering Iron, 15-Watt from RadioShack.
- Wire cutter/stripper
Relevant parts
- Op-Amp chip, Quad, LM324 fromRadioShack.
- Capacitor, 1.0µF non-polarized electrolytic (capacitor code 105) from RadioShack.
- Capacitor, 0.1 µF ceramic (100 nF, capacitor code 104) from RadioShack.
Relevant parts (continued)
- Microphone condenser element from RadioShack.
- Transistor, NPN, 2N4401 from RadioShack.
- Resistor assortment, 500 piece from RadioShack.
- PC board, grid style, with 371 holes from RadioShack.
- Hookup wire, 22 gauge, multiple colors from RadioShack.
- Battery snap, 9V from RadioShack.
- Battery, 9V from RadioShack.
- Solder, lead-free from RadioShack.
- LED 5mm from RadioShack.
- View:
- Paginated
- Full width
Edit Step 1
— Gather the parts
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All the resistors you need are in the "grab bag" resistor assortment pack from RadioShack.
The electret microphone element is polarized, so be careful not to reverse the connections. The ground leg is the one with the 3 silver traces running to the case (second photo).
To identify resistor values from their color codes, you can use this online calculator.
The LM324 chip has four op-amps, but this circuit only requires two of them.
Edit Step 2
— Solder the mic, socket, and power
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Follow the schematic to connect all components, starting with the microphone, chip socket, and battery holder.
It is useful to strip some wire and create a power "bus" consisting of V+ and Ground (-) lines running down the underside of the board on opposite sides. Solder these to the red (+) and black (-) wires of the battery holder, respectively.
On the schematic, the LN324 chip is drawn functionally, using two separate amplifier symbols (the triangles). Both of these represent the same component, and you need only one connection each between Pin 4 and V+, and Pin 11 and Ground.
Edit Step 3
— Add the input stage resistors and capacitors
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When you are following a schematic, it's useful to print it out and mark off each connection as you make it. Quite often your circuit board layout will not resemble the diagram, and so, doing this lets you know how much you have completed.
In the second photo here, you can see most of the input stage components added. These are: Microphone, 3x 10kΩ resistors (Brown, Black, Orange, Gold), 2.2kΩ resistor (Red, Red, Red, Gold), 470kΩ resistor (Yellow, Violet, Yellow, Gold), 1µF capacitor and 01.µF capacitor.
Plug the LM324 chip into the socket. Note the chip's orientation. With the notch pointing up, Pin 1 is top left corner, and the pins are numbered counter-clockwise.
Power it up by inserting the batteries. If nothing starts smoking, that's a good sign!
To check the output from the first amplifier, I hooked up an oscilloscope to the right hand leg of the 0.1µF capacitor. This showed a sound wave when I spoke - so far, so good!
Edit Step 4
— Add the the second stage resistors
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We're getting really close now. Add the remaining resistors: 47kΩ ohm (Yellow, violet, orange, gold), 10kΩ ohm (Brown, black, orange, gold), 100Ω (Brown, black, brown, gold).
Solder a connecting wire from chip Pin 7 to where you'll put the transistor, which we'll add in the next step.
All that remains is to add the transistor and the LEDs.
This guide has been completed 6 times.
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Comments Comments are onturn off
Guide
...or just build 3 kits.
Yay! rightbackatcha ;-)
I recently made this project and it was fairly hard becuase I am not experienced with wiring and soldering. Although it is a fun project and time consuming (took me 10 Hours) and also expensive. I spent around $100 but I also bought the bread board that was $15.
A huge tip--- use a bread board instead of the op amp chip. It is a lot less messier and does not take hardly any time to connect it rather than having to solder and make it stay on the tiny chip. Hope this helps!
if you want several channels, check out the JD&J products 3 channel color organ!coming soon to ebay (hopefully). or call 1-630-532-7657 between 4pm and 9pm, or text for more information. avaliable as a kit or fully assembled. yes, this IS annoying because im advertising. yay. you dislike me now.