LED Hacks

1830 Articles

Keeping An Old 8mm Projector Alive With High-power LEDs

May 24, 2012 by 51 Comments

There’s a certain mystique about old home movies and 8mm film; whether it’s footage from a family gathering from 40 years ago or a stop-motion animation you made when you were 12, there’s an immediacy for film that the VHS tapes from your family’s first camcorder can’t match. [Teslas Moustache] has been getting into 8mm cameras and projectors, so when he came across a 8mm/super 8 projector that needed a bulb, he knew he had a worthwhile project on his hands.

To replace the burnt-out and very expensive to replace incandescent bulb, [Teslas] sourced a very bright star LED from Jameco. This 1 Watt LED puts out more than enough light to project a frame of film onto a screen and fortunately doesn’t get as hot as the stock bulb.

To power the LED, [Teslas] used a cell phone charger powered from the 120 VAC incandescent socket to supply the requisite 5 Volts at 1 Amp (Ohm’s Law works on coffee) power for the LED. Right now, there’s still the matter of fabricating a nice enclosure to mount the LED and charger in the bulb socket, but once [Teslas] figures that out, he’ll have a very nice 8mm projector on his hands.

Power Index Window Display Turns Buildings Into LED Matrices

May 23, 2012 by 7 Comments

What started off as a fun project using light bulbs picked up some sponsorship and is going on tour. This project now uses LED modules controlled on the 2.4 GHz band to turn buildings into full color displays. It’s the product of students at Wrocław University of Technology in Poland. The group is something of an extra-curricular club that has been doing this sort of thing for years. But now they’ve picked up some key sponsorships which not only allowed for upgraded hardware, but sent the group on a tour of Universities around Europe. Who would’ve thought you could go on tour with something like this?

Much like the MIT project we looked at in April, this lights up the dark rooms of a grid-like building. It does go well beyond playing Tetris though. The installation sets animations to music, with a custom animation editor so that you can submit your own wares for the next show. Don’t miss the lengthy performance after the break.

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Macetech’s LED Glasses Prototype

May 22, 2012 by 9 Comments

While there was no mention of it on their blog, [Garret] from mace tech was spied wearing some pretty cool looking LED glasses at MakerFaire last weekend. This morning, we noticed a Lytro gallery of the glasses and they look pretty cool (as a toy, not a fashion accessory). For those who haven’t played with Lytro, you can click around and refocus the image. Neat right? Back to the glasses.

Someone who we’re guessing is [Garret] spoke up on Reddit this morning explaining some tech specs and dropping a video of them in action.

The shades are a 20×6 matrix (with some pixel missing of course) driven by SPI from an integrated Arduino-compatible in the right temple. There is a Lithium-Polymer battery on the left temple. You can charge the glasses through USB, and download new code to it over the same connection. A button on the right temple allows switching between modes or auto cycling animated patterns.

Rain Activated Light Show In An Umbrella

May 20, 2012 by 6 Comments

In a decision we completely agree with, these industrious young women decided that playing in the rain would only be more fun if it included an interactive light show. They wanted the rain itself to cause LEDs in their umbrella to light up. To achieve this, they put piezo sensors on each of the 8 panels of the umbrella. When that panel gets hit, its LEDs light up. You can see in the video after the break that it was quite effective.

Their next step should be to somehow increase the resolution to be similar to this one, while maintaining interactivity with the rain. How would you sense rain drops with more definition though?

[via Adafruit]

Building A Color Sensor Using Luminosity

May 19, 2012 by 13 Comments

[Richard Osgood] is back again with an interesting project. This time he has constructed a color sensor. His initial design was to use three LEDs and a photoresistor. He would shine a red, then green, then blue LED on a surface and record the reflected light with the photoresistor allowing him to determine how much reflected light there was of each color. Unfortunately, he found it to be completely unreliable. An attempt at using a light frequency sensor didn’t work either. What did finally work, was a luminosity sensor shown above.

Finally, his prototype worked. Unfortunately only the red LED gives readings that he considers to be adequate with the blue and green being “not all quite right”.  With this type of circuit, he could build a clone of the magic chameleon lamp.

Motion Sensitive RGB Lamp Can Standby For 3 Years

May 16, 2012 by 4 Comments

Ooooh, nice enclosure! This is a little motion sensing lamp which [Krazatchu] built a few years back as a Mother’s Day gift. The PIR sensor is easy enough to see as the white dome on the front of the case. But look closely below that and you’ll see the LDR which it uses to keep the thing asleep during the day. This is intended to save on batteries but the original version still ate through them like crazy. This year he gutted it and worked out a much more power-friendly design.

He moved to a TLC1079 OpAmp which greatly reduced power consumption when reading from the PIR sensor. The microcontroller was also upgraded from an ATtiny13 to an ATmega328, making the new version Arduino compatible. It puts itself to sleep and keeps the lights out during the day, drawing just 0.08 mA. When driving the RGB LED the lamp pulls about 50 mA. That should still last a while on three AA batteries but we’d still recommend using rechargeables.

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Helicopter Light Painting Continues To Snuff Out Physics Lesson On Your Brain

May 14, 2012 by 8 Comments

Cool picture, huh? Wait until you see the video footage of this LED-adorned RC helicopter flying on a dark night. But this isn’t an art project. Analyzing the long-exposure photography turns out to be a great way of clearing up some of the physics of flight which otherwise are not at all intuitive. The helicopter used here has different colored lights on the nose and tail, as well as lights on the rotors.

Depending on how the aircraft is moving, different 3D spirography is captured by the camera. When you zoom in on part of the flight path it becomes clear that there are wider arcs on one side of the fuselage than there are on the other. This has to do with the forward progress of the aircraft and the rotation of the blades. The phenomenon is well known by helicopter enthusiasts, and accounted for in the design. But what we didn’t realize is that it actually translates to a theoretical speed limit for the aircraft. Our childhood love of Airwolf — the TV helicopter that could outrun jets — has been deflated.

You should remember the helicopter physics videos featured here last month. This is the latest offering and we’re still wanting more!

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