Sure, you could get a regular light fixture like a normal person… Or you could use close to a thousand RGB LEDs to light your room!
That’s what [Dmitry] decided to do after trying to figure out the best way to light his pad. You see, his room is 4 by 4 meters, and WS2812 RGB LED strips happen to come in 4 meter lengths… Coincidence? We think not.
The problem with using 16 meters of LED strips is powering them… You see, at 16 meters, you’re looking at about 5V @ 57.6A — and we’re guessing you probably don’t have a 5V 60A power supply handy. Not to mention if you run them in series, the resistance of the system is going to kill your efficiency and the last LEDs probably won’t even work… So [Dmitry] had to break the system up. He has two power supplies feeding the strips from the middle of each pair — that way, he doesn’t have to worry about any voltage drops due to the length of the strips.
Continue reading “A Thousand LED Lights For Your Room”
Worried about bringing a project to demo at CCC15 (The Chaos Communication Camp), [Anthony Liekens] had to act fast. He would have brought his giant Flying Spaghetti-Monster Display (FSM for short), but unfortunately it wouldn’t fit in his car. So, looking around his garage he realized he had a pile of extra RGB LEDs, and a broken iCade Core. The gears in his head started turning and he came up with the idea for the HEXXX Gaming Console.
So what is it? It’s a hexagonal console designed for three-person gaming — like his Tron for Three and Pong for Three — he even has a 6 player Flappy Bird clone! From conception to reality, it took a mere ten stressful evenings to complete… The end result is quite fantastic. Continue reading “The HEXXX Gaming Console”
There are a lot of blinky glowy things at Burning Man every year, and [Mark] decided he would literally throw his hat into the ring. He built a high visibility top hat studded with more RGB LEDs than common sense would dictate. It’s a flashy hat, and a very good example of the fashion statement a few hundred LEDs can make.
[Mark]’s top hat has 481 WS2812b addressable LEDs studded around the perimeter, a common LED choice for bright and blinky wearables. These LEDs are driven by a Teensy 3.1, with a Bluetooth transceiver, a GPS module, a compass, and gyro/accelerometer attached to the microcontroller. That’s a lot of hardware, but it gives [Mark] the capability of having the hat react to its own orientation, point itself North, and allow for control via a modified Nintendo NES controller.
The WS2812 LEDs draw a lot of power, and for any wearable project having portable power is a chief concern. [Mark]’s original plan was to use an 8x battery holder for the electronics enclosure, and use five AA batteries to power the hat. The total idle draw of the LEDs was 4.5 Watts, and with even a few LEDs blinking colors there was a significant voltage drop. The idea of powering the hat with AA batteries was discarded and the power source was changed to a 195 Watt-hour lithium ion battery bank that was topped off each day with a solar panel.
The hat is awesome, exceedingly bright, and something that gets a lot of attention everywhere it goes. For indoor use, it might be too bright, but this could be fixed with the addition of a bit of black stretchy fabric, like what our own [Mike Szczys] did for his DEF CON hat. [Mark]’s hat is just version 1, and he plans on making a second LED hat for next year.
The number of things that can carry Internet traffic is always increasing. Now, you can add LED light bulbs to this list, as engineers in Disney Research have just demonstrated a system that transmits Internet traffic using an LED light bulb. This method of communication isn’t new: Visible Light Communication (VLC) has been demonstrated before by Disney and others, but this project puts it into a standard LED light bulb. This bulb has been modified to include an Atheros AR9331 SoC running OpenWRT and an Atmel ATmega328p that controls the LED elements and sensors that send and receive the data. So, the device is acting as a gateway between a WiFi network and a VLC one.
Disney’s new test system (PDF link) isn’t especially fast: it can only carry about 380 to 400 bits per second, so it won’t be streaming video anytime soon. That is definitely fast enough, though to send control data to a toy, or to send a continual stream of updated data to a device in the room, such as an ebook reader with a continually updated encyclopaedia. This being Disney, the authors coin a new phrase to end their paper: The Internet of Toys.
[SuperUnknown] aka [AvE], one of our favorite Canadian hackers is back at it with DRINKO, an adult beverage themed take on the classic PLINKO game from The Price Is Right. He’s built the game as a mancave warming gift for a friend. This isn’t a particularly complex build, but it’s always great to see all the little steps that go into a project, leading up to the finished job. [SuperUnknown] said that wood would be a great material for this project, but he is opposed to the senseless killing of peaceful trees, so he built the base from 1/8″ plate steel. The glasses were plain shot glasses masked and etched to spell out DRINKO.
The most tedious part of a fabricating a game like this is cutting and installing the tines. [SuperUnknown] used old welding rods, cut with a slitting saw on his Bridgeport. The rods were TIG welded into the metal plate forming the back panel of the game. To spice things up, [SuperUnknown] added an Arduino and some through hole WS2812 LEDs. While he didn’t have the flat surface mount WS2812’s on hand, that didn’t stop him. A quick trip through the bridgeport trimmed those frosted LED lenses down to size. The Arduino drives the LEDs through several patterns – much like the attract mode on a video game, or a Las Vegas sign. If you build your own DRINKO, we’d suggest adding some microswitches below each slot, so the drink to be consumed lights up.
Continue reading “AvE Builds DRINKO (not affiliated with PLINKO)”
[Limpkin], aka Hackaday alum [Mathieu Stephan], is at it again, converting an IKEA lamp into a visual wake-up light. He wants to build an alarm that can be remotely triggered, He’s basing this project around a combination of an ESP8266 that handles the communication and timing, and a pile of 10-watt RGB LEDs. However, he is having a problem: every time he initializes the PWM (pulse width modulation) signalling that will control the level of the LEDs, his ESP8266 dev board reboots. So, he’s offering an interesting bounty for the person who finds the issue: figure it out and he will send you the lamp. Well, the PCB and components, anyway: you’ll have to add your own IKEA lamp. It’s an interesting approach to debugging a hardware problem, so feel free to take a look. The full hardware and software details are on his GitHub repository.
LEDs are amazing things. As time marches on, they are being used in more and more lighting applications – everything from household bulbs to automotive headlights. But the push for smaller, cheaper, and brighter LEDs seems to have hit a snag for some of the less reputable manufactures.
Case in point, [bigclivedotcom] has been testing of some 100 Watt LEDs from eBay. When these LEDs work correctly, they put out a face-melting beam of light that you wouldn’t dare looking into (picture the scene from Raiders of the Lost Ark). They also have some unusual specs for an LED, like running on 30 Volts – and that’s a lot compared to the forward voltage of most LEDs at around 2.5 volts@20 mA.
So what gives? Well many of these high-wattage LEDs use a string of several LEDs in series. And as [bigclivedotcom] points out, this can be a real problem when a few of the LEDs begin to fail and act more like a low value resistor than a typical LED. In the videos after the break you can see [bigclivedotcom] test the LEDs to get a better look and what’s happening and why.
Continue reading “Why 100 Watt eBay LEDs Are Not Your Friends”