Difference between revisions of "Chalk Roach"
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== MiniSix == | == MiniSix == | ||
− | The [http://web.media.mit.edu/~awhiton/mini6.htm MiniSix] is the smaller (26mm x 26mm) surface mount version of the Number Six microcontroller. | + | The [https://web.archive.org/web/20121107173841/http://web.media.mit.edu/~awhiton/mini6.htm MiniSix] |
+ | by [http://web.media.mit.edu/~awhiton/ Adam Whiton] | ||
+ | is the smaller (26mm x 26mm) surface mount version of the Number Six microcontroller. | ||
Atmel AVR ATmega32 | Atmel AVR ATmega32 | ||
The MiniSix board is designed for a vertical stacking strategy using a 40 pin Hirose connector. | The MiniSix board is designed for a vertical stacking strategy using a 40 pin Hirose connector. |
Latest revision as of 19:51, 16 February 2015
Number Six[edit]
"The New Number Six - Embedded Microcontroller for Starving Artists"
http://web.media.mit.edu/~nvawter/usb6/
http://web.media.mit.edu/~nvawter/number6/audioBoard
Chalk Roach[edit]
This project was developed by the Computing Culture Group at the MIT Media Lab.
It's now called #6!
It's a 2"x2" (5cm x 5cm) one-side printed circuit board that supports the very robust Atmega32 microcontroller.
Because it's one-sided, you can make them at home with Press and Peel Blue a clothes iron, and Ferric Chloride from Radio Shack.
It can be configured minimally with just a tiny handful of components yet connect to so many different things.
http://web.media.mit.edu/~nvawter/chalkroach/ via Noah Vawter
MiniSix[edit]
The MiniSix by Adam Whiton is the smaller (26mm x 26mm) surface mount version of the Number Six microcontroller. Atmel AVR ATmega32 The MiniSix board is designed for a vertical stacking strategy using a 40 pin Hirose connector.
The MiniSix platform is availible as open source hardware and is registered with the Open Source Hardware and Design Alliance MiniSix at OHANDA.