So for this third hack we started with an online-bought robot costume, but being a creative tech people, we couldn't resist making it better by using some brilliant LED strips that react to sound.
The dense LEDs (144 per meter) were used on the helmet. More spaced apart (30 per meter) were used on the arms. All of them drive from one Teensy receiving analog signal from the microphone located in the helmet. The microphone captures both the voice of the wearer and ambient sounds.
Here's what it looks like reacting to the music:
Technical Build:
The idea was to attach two denser LED strips to the face mask guard and the rest to the arms of the costume. They both would react to ambient sound and light up depending on the frequency of sound. The helmet's strip would have the lower frequencies in the middle and the arms would have them start at the wrists.
The face mask guard took 52 LEDs per strip and arms got 25 LEDs per arm. These calculations are reflected in the code below.
For the arms, I divided each LED strip into two sections (since the costume itself had separate foam pieces for forearm and shoulder), and gave them their own battery. That allowed me to have a simple 2 pin connection for joining the arms to the helmet.
One problem when dealing with RGB Strips on wearables is that the solder pads are small and the wires break off too easily. I tried to minimize this by adhering a small wooden backing to the end of each strip. This acts like a cast and, when sealed with heat shrink, immobilizes the connections. I cut the supports on the laser cutter, but you can use anything. Popsicle sticks would work as well.
Here is the basic wiring diagram I used:
Software:
This code uses hardware support for FFT that's built into the Teensy. If you want to use a different processor, you will need to add a FFT library and modify the code accordingly.
I found some code online that was almost perfect for this project. Rather than reinventing the wheel, I reused that code, and modified it for my needs. Original credit has been left in the code.
This is Gareth Branwyn's latest book on robotics. Why should you care? Well, our own Dave Hrynkiw (dat be me) was honoured with the task of tech-editting it. It's a fun read, with some BEAM and not-so-BEAM projects, so if you're a raw newbie to robotics, this belongs on your bookshelf next to "Junkbots, Bugbots […]
Seeed Grove - Digital Light Sensor $9.90 This module is based on the I2C light-to-digital converter TSL2561. Grove - DMX512 $4.90 Interface Grove to DMX512 for control of stage lighting and effects. Grove - Temperature & Humidity Pro Sensor $14.90 For more precise environmental measurements using the Grove system. Grove - Recorder $17.95 Grove record […]
Ok, more like The Northern light. There's only one, but it creates lots of light! We made the SB-Firefly as a ATtiny85-based blinky light / "chewing-gum & duct-tape problem solver", that is also Digispark compatible. We made the Star Controller 3-watt RGB LED kit as an easy way to tame bright and power-hungry LEDs. We […]
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