Hackaday Prize

462 Articles

Hackaday Prize Semifinalist: A Better Smart Plug

August 29, 2015 by 12 Comments

Walk into any home improvement store, and you’ll find dozens of smart accessories, home automation equipment, and WiFi-connected ephemera. The Belkin WeMo Insight is one of these devices, giving anyone with $60 and a WiFi network the ability to switch lights and appliances on and off over a network. [John] picked up one of these WiFi plugs, but it didn’t work exactly as he would like. Instead of building a smart plug from scratch, [John] replaced the controller board for a WeMo Insight for his Hackaday Prize entry, making it far more useful and a replacement for devices like the Kill-a-Watt.

In its stock form, the WeMo can only be used though the smartphone app provided by Belkin or through a few third-party services like IFFT. All of these solutions have a limited API, and don’t provide advanced power metrics. To solve this problem, [John] replaced the smart controller board inside the Belkin WeMo with one of their own design.

By volume, most of the electronics inside the WeMo are a transformer, caps, and a relay; the smarts of this smart plug are just a daughterboard. By re-engineering this daughterboard with a new microcontroller, an ESP8266, and a microSD card connector, [John] can replicate the functionality of the WeMo while adding some new features. SD card datalogging for up to four years is now possible, a RTC now provides precise time stamps on all data collected, and a few simple calculations on the microcontroller enable power factor, line frequency, and total energy metering. With the ESP, all this data can be sent up to the cloud with a vastly improved API.

It’s a great project, and something that Belkin should seriously consider for their next revision of the WeMo. For anyone stuck with a stock WeMo, [John] has made all his design files and code available, allowing anyone to replicate this build

You can check out [John]’s Hackaday Prize entry video below.

The 2015 Hackaday Prize is sponsored by:

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Hackaday Prize Semifinalist: Portable A/C

August 28, 2015 by 61 Comments

Many people with Multiple Sclerosis have sensitivity to heat. When the core body temperature of an MS sufferer rises, symptoms get worse, leading to fatigue, weakness, pain, and numbness. For his entry to the Hackaday Prize, [extremerockets] is finding a solution. He’s developing a wearable, personal cooling device that keeps the wearer at a comfortable temperature.

The device is based on a wearable shirt outfitted with small tubes filled with a cooling gel. This setup is extremely similar to the inner garments worn by astronauts on spacewalks, and is the smallest and most efficient way to keep a person’s core body temperature down.

Unlike a lot of projects dealing with heating and cooling, [extremerockets] isn’t working with Peltiers or thermoelectric modules; they’re terribly inefficient and not the right engineering choice for something that’s going to be battery-powered. Instead, [extremerockets] is building a miniature refrigeration unit, complete with a real refrigeration cycle. There are compressors, valves, and heat exchanges in this build, demonstrating that [extremerockets] has at least some idea what he’s doing. It’s a great project, and one we can’t wait to see a working prototype of.

The 2015 Hackaday Prize is sponsored by:

Hackaday Prize Semifinalist: Water Quality Monitoring

August 27, 2015 by 11 Comments

The theme of this year’s Hackaday Prize is to build something that matters, and there is nothing more important than water quality and pollution. Everything we eat and drink is influenced by the water quality in rivers and reservoirs. C4Derpillar, a semifinalist for the Hackaday Prize, is solving the problems of water-related health issues with innovative sensors for under $500 USD per unit.

The C4Derpiller is using capillary electrophoresis (CE) to detect anions and cations in waterways. CE pulls a water sample through a very thin tube with an electric current. As water is moving through this capillary, a sensor is able to detect heavy metals, pesticides, and other pollutants in a water supply. The team behind C4Derpiller has written a few posts about the separation chemistry of their device

Commercial CE equipment costs tens of thousands of dollars. The team behind the C4Derpillar are hoping to develop their pollution monitoring device and make it available for about $500 USD. That’s cheap enough for multiple pollution monitoring stations in the third world, and by pushing the results to the cloud, the C4Derpillar will be able to monitor pollution in real time.

You can check out C4Derpillar’s Hackaday Prize video below.

The 2015 Hackaday Prize is sponsored by:

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Hackaday Prize Semifinalist: CANcrusher

August 25, 2015 by 11 Comments

In 2007, everyone discovered you could blink an LED with an Arduino. A few years after that, someone discovered you could make a PID controller work with an Arduino, and a great number of sous vide cooker hacks showed up on the Internet. Trends in electronics projects come and go, and this year we have CANbus sniffers and development platforms. One of these CAN dev platforms, CANcrusher, is a semifinalist for the Hackaday Prize, and does a great job at poking and prodding a CANbus.

Like a lot of very excellent projects, the CANcrusher is based on a Teensy 3.1 microcontroller. This, along with the MCP2515 CAN controller gives the CANcrusher three independent CAN channels supporting DW-CAN, SW-CAN, and LSFT. The software for the device can stream data directly to a computer over USB.

Simply providing an interface for a CAN bus is something that has been done to death, and to improve upon the many CANbus projects out there, the CANcrusher is adding Bluetooth, a GSM radio, SD datalogging, and a real time clock. It’s a great project for the Hackaday Prize with multiple videos explaining how it works and what it can do. You can check out the entry video for the CANcrusher below.

The 2015 Hackaday Prize is sponsored by:

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10 Best Product Finalists Announced

August 24, 2015 by 11 Comments

The Best Product competition within the 2015 Hackaday Prize highlights the work it takes for any hardware developer or startup to move from prototype to a manufacturable product. To compete, each entry had to go well beyond the standard requirements of the Hackaday Prize with more in-depth documentation, and by shipping three working beta units to Hackaday for judging.

The 10 Finalists featured below are all exceptional and will compete for the next four weeks to be named The Best Product. In addition to the top spot, they will secure a $100,000 cash prize, a six month residency in the Supplyframe Design Lab in Pasadena, California, and help with making connections needed to move their product forward. This is the perfect contest for product engineers, hardware startups, or anyone else who can design the next great thing.

We spent last week judging all the entries for the Best Product contest, and the results are in. Who are the winners? Which products are moving on to the next round of judging? See the full details of all Best Product finalists or browse a summary of each below, presented in no particular order whatsoever.

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Hackaday Prize Entry: Soft Orthotics

August 14, 2015 by 7 Comments

Nearly a million people in the US suffer from CP, a neurological disorder that causes spastic motion in the limbs. One of the biggest quality of life factors for CP sufferers is the ability to use their arms, and that means an expensive and clunky orthotic around their elbow. [Matthew] has a better idea: why not make a soft orthotic?

This is not [Matthew]’s first project with soft robotics. He’s the lead scientist at Super Releaser, the company responsible for the completely soft robotic Glaucus atlanticus and other soft pneumatic robots.

This soft, flexible orthotic exoskeleton is designed for sufferers of chronic movement disorders. Traditional orthotics are expensive, difficult to move, and uncomfortable, but by designing this orthotic to be just as strong but a little more forgiving, these devices minimize most of the problems.

The Neucuff is constructed out of extremely simple materials – just some neoprene, a velcro, and a CO2 cartridge. The problem with bringing this to market, as with all medical devices, is FDA requirements and certifications. That makes the Hackaday Prize an excellent opportunity for [Matthew] and the rest of Super Releaser, as well as anyone else trying to navigate regulatory requirements in order to change the world.

The 2015 Hackaday Prize is sponsored by: