Hackaday Prize Entry: Retrofit A Nokia

The Nokia 3210 is the greatest cell phone ever made. The battery lasted for days, custom color covers were available at every mall kiosk, it had the Snake game, and the chassis for this phone was finely crafted out of the crust of neutron stars. It was indestructible; it is the reason we now appreciate technology over more impermanent concepts like relationships and love.

For his Hackaday Prize entry, [Bastian] is bringing the Nokia 3210 into this century. He’s designing a circuit board with the same footprint, the same button layout, and a better screen that drops right into the lovely plastic enclosure of the 3210.

Also known as, ‘a fun time’

The current BOM for the upgraded 3210 includes an STM32 F7 microcontroller, which is more or less the current top of the line ARM micro you can get. For wireless, [Bastian] is using an A7 GSM/GPRS module and an ESP8266 for a little bit of WiFi. For a dumbphone, this is ludicrously overpowered. Provided [Bastian] gets a prototype up and running, there will be some interesting applications for a device this powerful in a package this indestructible.

One of the things [Bastian] has been butting his head against with this project is KiCad. Microvias don’t work like they should in KiCad — they’re restricted to the outer layers only. This is a problem for routing a complex board like this, so [Bastian] wrote a patch that gives KiCad an ‘I know what I’m doing mode’ for microvias everywhere.

This is truly the spirit of The Hackaday Prize: not only is [Bastian] building something ridiculous, he’s also creating the tools to do it.

These Twenty Assistive Technologies Projects Won $1000 In The Hackaday Prize

Today, we’re excited to announce the winners of the Assistive Technologies portion of The Hackaday Prize. In this round, we’re looking for projects that will help ensure a better quality of life for the disabled. Whether this is something that enhances learning, working, or daily living. These are the projects that turn ‘disability’ into ‘this ability’.

Hackaday is currently hosting the greatest hardware competition on Earth. We’re giving away hundreds of thousands of dollars to hardware creators to build the next great thing. Last week, we wrapped up the fourth of five challenges. It was all about showing a design to Build Something That Matters. Hundreds entered and began their quest to build a device to change the world.

There’s still one entry challenge remaining in The Hackaday Prize. Anything Goes is on right now and open to every idea imaginable. If you’re building a computer made of sand, awesome. Quadcopter hammock? Neat. This is the portion of the Hackaday Prize that’s open to the best ideas out there. It’s up to you to explain how your creation makes the world a little bit better place.

The winners of the Assistive Technologies challenge are, in no particular order:

Assistive Technologies Hackaday Prize Finalists:

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Hackaday Prize Entry: IO, The Cardboard Computer

[Dr. Cockroach]’s goal was to build a four-bit computer out of recycled and repurposed junk. The resulting computer, called IO, consists of a single 555, around 230 PNP and NPN transistors, 230 diodes, and 460 resistors. It employs RISC architecture and operates at a speed of around 3 Hz.

He built IO out of cardboard for a good reason: he didn’t have a big budget for the project and he could get the material for free from his workplace. And because it was built so cheaply, he could also build it really big, allowing him to be able to really see each circuit close up and repair it if it wasn’t working right. You can really see the architecture very well when it’s this big—no tangle of wires for [Dr. Cockroach]. He uses over sixty blue LEDs to help monitor the system, and it doesn’t hurt that they look cool too. One of our favorite parts of the project is how he used copper fasteners to both manage the cardboard and serve as wiring points.

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Hackaday Prize Entry: Smart Electric Bike Controller

One of the more interesting yet underrated technological advances of the last decade or so is big brushless motors and high-capacity batteries. This has brought us everything from quadcopters to good electric cars, usable cordless power tools, and of course electric bicycles. For his Hackaday Prize project, [marcus] is working on a very powerful electric bicycle controller. It can deliver 1000 Watts, it’s got Bluetooth, and there’s even an Android app for some neat diagnostics.

The specs for this eBike controller are pretty much what you would expect. It’s able to deliver a whole Kilowatt, can use 48 V batteries, has regenerative braking, Hall sensors, and has a nifty Android app for settings, displaying speed, voltage and power consumption, diagnostics, and GPS integration.

How is the project progressing? [marcus] has successfully failed a doping test. He lives on the French Riviera, and the Col de la Madonne is a famous road cycling road and favorite test drive of [Lance Armstrong]. The trip from Nice to Italy was beautiful and ended up being a great test of the eBike controller.

Hackaday Prize Entry: Touch Sensitive Power Supplies For EL Panels

[fool]’s entry in the Hackaday Prize competition is a modular and configurable lighting system the purpose of which is to assist seniors and others with limited mobility navigate safely at home. For [fool], this means the quiet steady hum of electroluminescent panels and wire. EL stuff is notoriously tricky to power, as it only operates on AC. The MoonLITE project is the answer to the problem of an easy to use EL power supply. The goal is to create a 5 watt, quiet, wearable EL power supply that outputs 100V at 100Hz.

One of the reasons why [fool] is interested in EL materials is that it can also turned into a touch sensor. This has obvious applications in lighting, and especially in assistive technologies. The MoonLITE project is based around [fool]’s Whoa Board that turns EL wires and panels into not only touch-sensitive lights, but also analog switches that can control basically anything. This unique capability of lighting doubling as a sensor offers the opportunity to make light-up EL grab bars for a senior’s bedside, for instance. He or she is going to be touching it anyway when getting up—why not add light as well as stability?

This is an especially cool project that brings something to the table we don’t really see much of. You can check out a video of the project below, complete with example of EL panels being used as buttons.

Continue reading “Hackaday Prize Entry: Touch Sensitive Power Supplies For EL Panels”

It’s Time For Anything Goes In The Hackaday Prize

We’re challenging you to make the best whatever. It’s time for the Anything Goes round of the Hackaday Prize. This is your final chance to enter and we’re looking for just about anything! Twenty entries from Anything Goes will receive a $1,000 cash prize and a chance at the $50,000 grand prize and four other top prizes.

Over the last six months, we asked you to Design Your Concept, and then challenged you to build the Internet of Useful Things, Wheels Wings and Walkers, and Assistive Technologies that ensure a better quality of life for the disabled. All things must come to an end, though, but for the last challenge in the Hackaday Prize, we’re going wild. Is there a theme? No, just go build the best whatever you can. Our one bit of advice: the Hackaday Prize is about Building Something that Matters so do find a way for your “anything” to make the world a little bit better place.

The Anything Goes portion of the prize was introduced in last year’s Hackaday Prize. We didn’t want to exclude anyone building something awesome just because it didn’t fit a theme, so we created a challenge anyone could meet. The results last year were phenomenal, with twenty projects each winning a thousand dollars and progressing onto the final round of the Hackaday Prize. Winners last year included an Open Source Two-Stroke Diesel, a beautiful Diode Clock, and Dtto, a modular robot that went on to win the Grand Prize. Do you see a common theme between these projects? There isn’t one. The Anything Goes portion of the prize is a challenge to build the coolest thing.

This entry round is going on right now and ends October 16th. It’s the last chance for any project to make it to the final round with a potential to take home the Grand Prize of $50,000 USD.

Get those project logs in, and start making a video. Be sure you answer the final call to get in on the 2017 Hackaday Prize.

Hackaday Prize Entry: Vibhear

Hearing impairment, either partial or total, is a serious problem afflicting a large number of people. Almost 5% of the global population has some form of hearing disorder. For those affected by this disability from birth, it further impacts the development of language and speech abilities. In recent years, cochlear implants are increasingly being used to address this problem. These implants consist of two parts – the receiver and electrode array are implanted under the skin near the ear (with the electrode array terminating inside the Cochlea), while the microphone, electronics, transmitter and power source are attached on the outside. Often, the external unit has to be removed – for example, when the person needs to sleep. This is particularly so in the case of young children. The external unit is fairly large compared to their head and causes discomfort during sleep. And parents are worried that the expensive device could get damaged when the child is sleeping. This leads to the alarming situation where the child is asleep and has no audio sensory inputs being received from the surroundings. Not only can they not hear morning alarms, but also cannot react when there is an emergency situation such as a smoke alarm going off.

[Srdjan Pavlovic] came across this problem first hand when he visited his friend and learned about their six-year-old son with hearing loss since birth. The parents said their child will not be disturbed by loud noises at night since the external unit of his cochlear implant is removed each night. [Srdjan] then started work on building the Vibhear – an assistive hearing device to be used when the main hearing aid is removed or not working. It is a low-cost arm-band that provides a vibratory signal in response to high ambient noises.

The main components are a microphone, amplifier, microcontroller and vibration motor powered by a LiPo battery through a boost converter/charger. An RTC module allows setting up daily wake up alarms. It’s currently prototyped around the Arduino, but the next iteration will use a specialized DSP which can be programmed to perform signal processing operations on input sound. This will allow identification of specific sounds such as car horns, barking dogs, smoke alarms or emergency sirens.

[Srdjan] is in the process of choosing components for his next iteration, so if you have any recommendations to help him choose the microcontroller, power supply controller or other parts, do let him know via comments below.