Temperature Sensing Munny

February 18, 2009 by Eliot 7 Comments

munny

Here’s another nerdy present that was built for Valentine’s Day. [João Silva] created a temperature sensing Munny. A Munny is a vinyl toy made to be customized. Other than these Munny speakers, we haven’t seen them in many electronics projects. The LM35CZ temperature sensor has an analog output that connects to the ADC on the ATtiny15L. The microcontroller changes the RGB LED’s color based on the temperature: blue for cold, green for comfortable, and red for hot. It only flashes every three minutes to conserve the power in the coin cells. His one-off circuit board also includes an ISP header for programming. The Munny’s head looks like it does a great job diffusing the light.

Molten Metal LED Display

February 16, 2009 by Caleb Kraft 19 Comments

[youtube=http://www.youtube.com/watch?v=gMuDudCiPR8]

firstly, we don’t know why they are doing this, and we don’t care. You are watching an LED panel, controlled by molten metal. The panel has the leads sticking down below the bottom of the board, so the metal can make connections as it flows past. They are using Wood’s metal, not mercury so it has to be heated to about 159 degrees Fahrenheit to be fluid. This has been representing problems as the metal tends to stick to whatever container he is holding it in. That actually seems to be what most of the writeup and discussion are about, rather than, what it will be used for.

[Thanks Andre]

Flexible Circuit Valentine

February 14, 2009 by Eliot 11 Comments

valentine

[xander] built this LED valentine for his loved one. It’s interesting because he used Pyralux, a flexible circuit board material from DuPont. He describes the consistency as “tough plastic tissue-paper”, but had no trouble using standard toner transfer etching. It has an ATtiny45 microcontroller that pulses the 16 LEDs at an approximation of his heart beat. To avoid soldering a bunch of surface mount resistors, he used two constant current shift registers.

Electric Matchstick

February 11, 2009 by Caleb Kraft 34 Comments

[youtube=http://www.youtube.com/watch?v=q-HY8a9cCvI]

Here is a cool little toy, an LED matchstick. We don’t really know what purpose it serves, but [dhananjaygadre] did a pretty good job of reproducing the effect. The light is controlled by a microprocessor to emulate the flickering of a flame. It holds a charge for a short while, staying lit for an amount of time comparable to a match. To turn it on, you even “strike” it on a match box filled with magnets.

SparkFun Releases RGB Button Controller

February 5, 2009 by Eliot 5 Comments

rgb_button

SparkFun has been selling button pad parts for some time and we used them in our RGB door lock project. A excellent part, but you needed to implement your own interface to use the boards. SparkFun has just released two additional versions to make it easier on builders. The first is their Button Pad Controller USB. It has a 4×4 grid of buttons lit by RGB LEDs and a USB interface. This board can be expanded using the Button Pad Controller SPI. The SPI bus means it should be easy to add the button pad to embedded projects. This newest release puts you much closer to building your own RGB monome clone or other custom controller than ever before. The unit pictured above is their own project and they have no plans on selling anything like it.

Mobius Circuit

February 4, 2009 by Caleb Kraft 33 Comments

[flickr video=3252983302]

We don’t want your brains to explode, so just trust us that this is a truly one sided circuit. Being a mobius strip means that this circuit has uber geek bragging rights. Beware, your friends who have never heard of a mobius strip will argue until they are blue in the face that there are two sides to it. The circuit they chose was fairly appropriate, an LED “chaser”.

LED Push Buttons

January 29, 2009 by Caleb Kraft 39 Comments

[pros] has come up with a very elegant way of making lighted buttons (translated). Using a bunch of small push buttons harvested from old CD players, he rigged this unique way of mounting LEDs. Each LED has two buttons under it. They are wired in parallel, so if either of them is pushed, the button works. The LED isn’t actually soldered where it passes through the board. The anode and cathode are bent around and soldered to allow the LED a little bit of travel. There’s a good picture of how he did this on the site. The rest of the details might be hard to decipher though, it looks to be in dutch.

[thanks Tom]