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1373 Articles

Displaying Video And Gifs On RGB LED Matrices

May 19, 2011 by 14 Comments

led_matrix

[Mathieu] was on holiday in China and picked up some fun toys while perusing the numerous electronics markets there. The most interesting things he discovered were a pair of RGB LED matrices. They came in two different flavors, one made for indoor and one for outdoor displays, sporting a 64×32 and 32×16 resolution, respectively.

If you’ve read his blog before you know he is a big fan of LED matrices, so it’s only natural that bought a whole bunch of them and started experimenting once he got home. Using the same Atmel FPSLIC LED matrix control board he showed off in this previous hack, he was able to get the LED matrices up and running in no time. He adapted his webcam project to utilize the new panels, and he added a whole new feature as well. Via MatLab, he can now display any sort of animated gif on the panels, as you can see in the video below. The panels look great, and if we had a few of these around, there’s no doubt we would probably play this video on infinite repeat.

He says that the despite their somewhat questionable origins, the panels are of top notch quality, and he is willing to organize some sort of group buy if others are interested.

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Awesome Custom Disco Basement

May 17, 2011 by 14 Comments

led_shelves

[Evan] is one of those neighbors you only wish you had.

His neighbors were renovating their basement for use as home theater, and he stopped by to check out how things were coming along. While there, he suggested they add some LED lighting to their shelving unit to make them pop. His neighbors were game, so he sourced some cheap RGB LEDs online and began working on the circuits and firmware needed to control the lights. His neighbors wrote some custom software that interfaces with iTunes to create a neat visualization in the shelving unit whenever music is played.

Once everything was complete, his neighbors informed him that they wanted an additional 20 overhead can lights and a set of 4 wall sconces wired up as well. Needless to say he was pretty excited, so he got busy wiring up the remainder of the basement.

He pushed the installation’s PIC microcontroller about as far as he possibly could, resulting in the awesome show seen in the video below.

Needless to say, it’s pretty impressive, though we wish we could have a peek at the code used to run everything. Wink, wink, nudge, nudge.

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Dimming Control For An Ikea Solar Desk Lamp

May 16, 2011 by 15 Comments

[Frank] decided to augment his desk lamp’s features by adding dimming controls (translated). Since the light source is a triad of LEDs the best method of dimming their intensity is to use Pulse Width Modulation. That’s the method that he went with, and luckily the SUNNAN lamp from Ikea which he’s using as the donor for the project has just enough room to squeeze in the parts necessary for this hack.

You need two main bits to use PWM with a lamp like this; a microcontroller (or possibly a timer chip like the 555) and a transistor to protect that chip from the current necessary to run the LEDs at full brightness. [Frank] went with an ATtiny13 and a 2N2222 transistor, both quite common and very inexpensive (you can even pull the microcontroller from a light bulb if you know where to look). Two buttons were added to the top of the lamp base which allow for up and down controls. There’s even an SOS function which is triggered by pressing both buttons at the same time. [Frank’s] happy to show off the completed project in the clip after the break.

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Macetech Is Looking For A Few Good Processing Programmers

May 12, 2011 by 7 Comments

maker_faire_logo

[Garrett Mace] wrote to us in hopes of finding a few good programmers to help him out with a project he’s been working on for Maker Faire Bay Area 2011.

More specifically, he is looking for Processing programmers who are also pretty decent with graphics. Macetech’s big project for this year’s Maker Faire is a large overhead light matrix constructed from Chinese lanterns. They are using their new Satellite LED modules to light the 128-lantern array, which is laid out in a 16×8 matrix.

It seems that the Macetech crew has been so busy getting the array built and tested that they don’t have much time to program any visualizations for it – that’s where you come in. If you are so inclined, simply download his matrix simulation code, put together some cool displays, and send them his way. [Garrett] says that they will be taking video of the visualizations, so even if you can’t attend Maker Faire, we will all be able to enjoy your hard work (though it would be pretty cool if they sent contributors a Satellite LED module “sample” as well!)

Keep reading to see a quick demo video of the simulation software to get an idea of what they are looking for visualization-wise.

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Bringing The Game Of Tag Into The Digital Age

May 12, 2011 by 8 Comments

tagurit

How long has it been since you’ve played a game of tag?

[Sylvia Cheng, Kibum Kim, and Roel Vertegaal] from Queen’s University’s human media lab have concocted a fun twist on the classic game that just might compel you to start playing again.

Their game, called TagURIt, arms two players with Lumalive LED t-shirts which sport embedded touch sensors. A third player, known as the “chaser” attempts to touch either of the other players in order to capture the token displayed on the player’s chest-based LED matrix. The game is score-based, awarding points to the chaser for capturing tokens, while giving the other players points for avoiding capture.

If both players wearing the LED shirts are near to one another, the token will jump to the other player in an attempt to thwart the chaser. In this game, each player is a location-tagged URI, and proximity is determined by either tracking the users with cameras indoors, or via RF sensors if the game is played outside.

It is definitely an interesting way of playing tag, and we imagine it could be quite fun in large groups.

Continue reading to see a video demonstration of the TagURIt game being played.

[via Adafruit blog]

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Improve Charlieplexing Performance With Interrupts

May 6, 2011 by 20 Comments

single_chip_led_matrix

[Dmitry] was shopping for LEDs and accidentally pulled the trigger on the wrong type. Since he didn’t want to be wasteful, he figured he should at least take the time to build something with them.

A LED matrix display was the obvious project choice, but he only had a PIC16F688 at his disposal. Since the micro controller only has 11 output pins, charlieplexing was the only way he would be able to light the entire matrix.

While testing his LED array, he found charlieplexing to be a bit disappointing. The fact that the LEDs can get relatively dim, depending on the number of units lit at any particular time struck him as annoying.

In order to improve the performance of his charlieplexed array, he first decided to scan through all of the LEDs rather than just those that needed to be lit. This ensured that all of his LEDs had the same 1/110 duty cycle and were always as bright as possible. He also chose to use interrupts when lighting the LEDs. This meant that his code does not need to take into consideration any specific timing requirements to maintain persistence of vision. He also double-buffers the display to help reduce flicker.

He says that he ran into certain constraints with the PIC chip he chose, so he used a handful of lookup tables to ensure smooth operation of his display. He was quite satisfied with the results, and we think that the interrupt-driven display looks like it works just fine from where we’re standing as well.

Be sure to stick around for a quick video explaining and demonstrating his single-chip LED matrix.

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DIY Sunrise Alarm Clock

May 4, 2011 by 15 Comments

sunrise_alarm_clock

As a project for an embedded systems class, [Alan] recently built himself a sunrise-simulating alarm clock. You are probably familiar with these sorts of timepieces – they gradually light up the room to awaken the sleeping individual rather than jarring them awake with a buzzer or the radio. Since many commercial units with this feature are sold for $70 and up, his goal was to replicate the functionality at a fraction of the cost, using only open source components.

An Arm Cortex M3 processor runs the show, displaying the time via a pair of 8×8 LED matrix panels on the front of the device. The clock is programmed to gently wake up its user by simulating a sunrise over a period of 5, 15, 30, 45, or 60 minutes. If the user has not woken up before the sunrise simulation is complete, the clock resorts to a traditional piezo alarm to rouse the heavy sleeper.

The project is nicely done, and after looking at his bill of materials it seems to be far cheaper than many sunrise alarm clocks you will find in stores.