ChromoDisk
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... is a round PC board with 9 rings of 18 RGB LEDs each. The microcontroller and other components that make it work are in the center. The design is based upon the [[http://www.instructables.com/id/Aurora-9x18-RGB-LED-art/ Aurora Instructable]]. Since I've worked with AVRs, and this seems like an interesting introduction to PCB design with LEDs, I decided to redo the original to fit into a 100mm dia board for minimum cost. I also designed it for a AA battery pack on the back side of the board. We'll see how long it lasts with 162 LEDs! | ... is a round PC board with 9 rings of 18 RGB LEDs each. The microcontroller and other components that make it work are in the center. The design is based upon the [[http://www.instructables.com/id/Aurora-9x18-RGB-LED-art/ Aurora Instructable]]. Since I've worked with AVRs, and this seems like an interesting introduction to PCB design with LEDs, I decided to redo the original to fit into a 100mm dia board for minimum cost. I also designed it for a AA battery pack on the back side of the board. We'll see how long it lasts with 162 LEDs! | ||
| − | Current status: Version | + | Current status: Version 2 boards are on their way! Two samples using the version 1 prototype are done (5 hours to assemble!), writing software for it. Here's a demo of a simple program I wrote: |
[[Media:ChromoDiskProto.mp4|Demo of prototype]] | [[Media:ChromoDiskProto.mp4|Demo of prototype]] | ||
Revision as of 06:03, 24 November 2011
The ChromoDisk aka ColorMesh
... is a round PC board with 9 rings of 18 RGB LEDs each. The microcontroller and other components that make it work are in the center. The design is based upon the [Aurora Instructable]. Since I've worked with AVRs, and this seems like an interesting introduction to PCB design with LEDs, I decided to redo the original to fit into a 100mm dia board for minimum cost. I also designed it for a AA battery pack on the back side of the board. We'll see how long it lasts with 162 LEDs!
Current status: Version 2 boards are on their way! Two samples using the version 1 prototype are done (5 hours to assemble!), writing software for it. Here's a demo of a simple program I wrote:
Notes on Improvements:
- Improve power distribution. RESET pull-up is at the end of the line.
- Polarity of battery holder is reversed.
- Add ground plane.
- Pull-up on SCLK line affects programming.
- Need to current-limit base drive on Q1-Q9, else overheats CPU.
- Add 220uF cap to power supply to avoid programming problems.
