2022 Hackaday Prize: ArmaLamp Provides Light, No Matter What

May 4, 2022 by Tom Nardi 35 Comments

Instant access to electric light is a luxury that most of us take for granted, but in times of crisis, the power is often the first thing to go. So whether you’re worried about a natural disaster or the outbreak of war, a reliable source of light is a must-have in your emergency kit. Creator [bobricius] calls his is ArmaLamp the “Armageddon resistant night lamp”, and while we’re not eager to test that particular claim, it certainly looks robust enough to get you through some tough times.

The basic idea behind the ArmaLamp is to make a light source so simple that, outside of being physically destroyed, it can’t fail. That means deleting the mechanical power switch and designing the circuit so the LED light will kick on automatically in the dark. Rather than using a traditional rechargeable battery, the solar powered ArmaLamp stores its charge in a 10 farad supercapacitor that can be charged and depleted daily without having to worry about long-term degradation.

Charging the ArmaLamp with a simple solar cell is clearly out of the question as it would represent not just a single point of failure, but a particularly fragile one at that. Instead, [bobricius] is using an array of six BPW34 photodiodes that come in a hard plastic package. Combined with an efficient driver circuit that can run the LED even when the supercap is down to 0.3 V, leaving the ArmaLamp outside during the day should provide you with four hours of ultra-reliable light every night.

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A small PCB with an OLED screen showing a Dinosaur Game

Hackaday Prize 2022: RunTinyRun Is A Fully Solar-Powered, Portable Dinosaur Game

April 29, 2022 by Robin Kearey 7 Comments

Fully solar-powered handheld gadgets have so far mostly been limited to ultra-low power devices like clocks, thermometers and calculators. Anything more complicated than that will generally have a battery and some means to charge it. An entirely solar-powered video game console is surely out of reach. Or is it? As [ridoluc] shows, such a device is actually possible: the RunTinyRun gets all its power directly from the Sun.

To be fair, it’s not really a full-fledged game console. In fact it doesn’t even come close to the original Game Boy. But RunTinyRun is a portable video game with an OLED display that’s completely powered by a solar panel strapped to its back. It will run indefinitely if you’re playing outside on a sunny day, and if not, letting it charge for a minute or two should enable thirty seconds of play time.

The game it runs is a clone of Google’s Dinosaur Game, where you time your button presses to make a T-Rex jump over cacti. As you might expect, the game runs on an extremely minimalist hardware platform: the main CPU is an ATtiny10 six-pin micro with just 1 kB of flash. The game is entirely written in hand-crafted assembly, and takes up a mere 780 bytes. A 0.1 farad supercap powers the whole system, and is charged by a 25 x 30 mm² solar cell through a boost converter.

RunTinyRun is a beautiful example of systems design within strict constraints on power, code size and board area. If you’re looking for a more capable, though slightly less elegant portable gaming console, have a look at this solar-powered Game Boy.

Hackaday Prize 2022: Glass Tube Solar Thermionic Converters

April 27, 2022 by Lewin Day 13 Comments

Typically, if you want to convert solar energy into electrical energy, you use either photovoltaic (PV) cells, or you use the sunlight to create steam to turn a turbine. Both of these methods are well-established and used regularly in both small- and grid-scale applications. However, [Nick Poole] wanted to investigate an alternative method, using thermionic converters for solar power generation.

[Nick] has been gearing up to produce various styles of vacuum tubes, and noted that the thermionic effect that makes them work could also be used to generate electricity. They are highly inefficient and produce far less power than a photovoltaic solar cell, meaning they’re not in common use. However, as [Nick] notes, unlike PV cells etched in silicon, a thermionic converter can be built with basic glassworking tools, requiring little more than a torch, a vacuum pump, and a spot welder.

Experiments with a large lens to focus sunlight onto a 6V3A diode tube showed promise. [Nick] was able to generate half a volt, albeit at a tiny current, with the design not being optimized for thermionic conversion. Further experiments involved electrically heating a pair of diode tubes, which was able to just barely light an LED at 1.7 V and a current of 7.5 uA. The conversion efficiency was a lowly 0.00012%, around 5 orders of magnitude worse than a typical PV cell.

[Nick]’s hope is that he can produce a tube designed specifically to maximize thermionic conversion for energy generation purposes. It’s likely there is some low-hanging fruit in terms of gains to be made simply by optimizing the design for this purpose, even if the technique can’t compete with other solar generation methods.

In any case, we’re eager to see what [Nick] comes up with! We love to see makers building tubes in their own home workshops.

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2022 Hackaday Prize: Get Your Planet-Friendly Power On!

April 27, 2022 by Elliot Williams 5 Comments

Time flies! This weekend marks the end of the first stage of the 2022 Hackaday Prize, and your chance to enter your alternative-energy projects. There are ten $500 prizes up for grabs, and there’s still time to whip up a project page over on Hackaday.io to showcase it.

In this round, we’re looking for projects that harvest their own energy — solar, wind, heat, vibration, you name it — or projects that make it easier to collect, store, or use renewable energy. Whether this is microwatts or megawatts, the scale of the project is up to you! As long as it’s using or making it easier to use clean energy, we want to see it.

So far, we’ve seen some great projects, ranging from a optimizes the tilt angle of a home solar installation to a demonstration of using a new type of lithium-ion capacitor to add solar power to smaller projects. We really love [MartMet]’s simple Bluetooth thermometer hack, which adds a supercapacitor and solar cell to an outdoor thermometer, and then uses hacked firmware to log the charge status over a year of use! We’re suckers for good data.

The sun is not the only game in town, though. There are a surprising number of projects based on human energy production in emergency situations, from cranking to shaking. Thermionic converters were new to us, but we love explorations of fringe tech. Other traditional favorites like wind and water may make more sense for larger applications. And don’t forget how you’re going to store all this juice you’ve collected.

[Nick Poole]’s thermionic converter array

[Anuradha Gunawardhana]’s 18650 Pack

In short, we’ve got a bunch of great entries, but we’re still missing yours! There’s no minute like the last minute: if you’ve done some work in clean or renewable energy, set yourself up a Hackaday.io project page now. You’ll help make all our projects cleaner, and stand a good chance of taking home some real money to boot!

Once we’ve handled power, the next round is “Reuse, Recycle, Revamp” where any tech that uses recycled parts or facilitates reuse, repair, or recycling is fair game!

The 2022 Hackaday Prize Hack Chat Kicks Things Off

April 15, 2022 by Tom Nardi No comments

The 2022 Hackaday Prize is on, and we’ve already seen some incredible submissions by folks who believe their idea just might have what it takes to make the world a better place. But as with all contests, it’s good to understand all the rules before you get too involved. We promise nothing’s hidden in the fine print, but we certainly don’t fault anyone who wants to make sure.

Which is why Majenta Strongheart, Head of Design and Partnerships at our parent company Supplyframe, stopped by this week’s Hack Chat to answer any and all questions the community had about this global hardware design challenge. A lot of ground was covered in an hour, with Majenta making sure everyone’s questions and concerns were addressed to their satisfaction. After all, with a residency at the Supplyframe DesignLab and a total of $125,000 in prize money up for grabs, we want to make sure everyone’s got the facts straight.

So what burning questions did the Hackaday community have about this year’s Prize? Several people wanted to know more about the themes of sustainability, circularity, and climate crisis resiliency. For example, what exactly does circularity mean in this context? While Challenge #2 “Reuse, Recycle, Revamp” most clearly exemplifies the idea, Majenta explained that this time around the judges will be giving particular consideration to ideas that limit the extraction of raw materials and the production of waste.

For a practical example, 2022 Hackaday Prize judge James Newton pointed to the direct granule extruder designed by Norbert Heinz. The project, which took 5th place last year, allows waste plastic to easily be repurposed in a desktop 3D printer. This includes objects which the printer itself produced, but for whatever reason, are no longer desired or needed. This “life-cycle” for printed objects, wherein the same plastic can be printed over and over again into new objects, is a perfect encapsulation of circularity within the context of this year’s prize.

Others were looking for clarification on the contest rules. Specifically, there was some confusion about entering existing projects into the competition. Did it have to be a completely new idea? What if you’d already been working on the project for years, but had never shown it publicly before? Not to worry — existing projects can absolutely be entered into the 2022 Hackaday Prize. In fact, even if the project had already been entered into the Hackaday Prize previously, it’s still fair game.

But there is an important caveat: to be eligible for this year’s Prize, the project MUST be documented on a new Hackaday.io page. Additionally, if it’s a project that has previously been entered into a Hackaday contest, you’ll have to show that it is “significantly different from when previously entered and show meaningful development during the course of the Contest“, as stated in the official rules. In layman’s terms, it means that anyone who tries to submit and old and outdated Hackaday.io page into the competition will find their entry disqualified.

Towards the end of the Chat, Erin Kennedy, a Hackaday Prize veteran that readers may know better as “Erin RobotGrrl” brought up the subject of mentors. In previous years, hardware luminaries like Andrew “Bunnie” Huang and Mitch Altman were made available to offer advice and guidance to the individuals and teams behind the Prize entries. While very proud of this effort, Majenta explained that at least for now, Mentor Sessions are on hold until that aspect of the program can be retooled. The main issue is figuring out the logistics involved; planing video calls between several groups of busy folks is just as tricky as it sounds. That said, bringing the Mentor Sessions back for 2022 isn’t completely out of the question if there’s enough interest from the competitors.

We appreciate Majenta taking the time to directly answer questions from the community, and hope that those who had their questions or concerns addressed during the Chat will ultimately decide to toss their hat into the ring. With a worthy goal and plenty of opportunities to win, we sincerely want to see as many people as possible get their entries in before the October 16th deadline. If you’re ready to take the next step, head over to the Contest page and show us what you’ve got.

The Hack Chat is a weekly online chat session hosted by leading experts from all corners of the hardware hacking universe. It’s a great way for hackers connect in a fun and informal way, but if you can’t make it live, these overview posts as well as the transcripts posted to Hackaday.io make sure you don’t miss out.

Hackaday Links: April 3, 2022

April 3, 2022 by Dan Maloney 7 Comments

It’s that time of year again — the 2022 Hackaday Prize has officially launched, and we’re excited to see what it turns out. This year’s theme is “Sustainability, Resilience, and Circularity,” and just in time, too; if the last couple of years has taught us anything, it’s that we’ve got a lot of failure points built into the systems that run our world. As broken as things are, it’s tempting to just curl up in a ball and pretend everything’s fine, but that’s not how hackers respond to adversity. We need to control what we can control, and there’s plenty of work to be done. From sustainable energy ideas to ways to reduce the amount of stuff we throw away, from breathing new life into old equipment to building communities that can take care of themselves, there’s plenty of work to be done. So get over to the Hackaday Prize page, check out the launch summit video if you need some inspiration, and get hacking. And hurry up — things are only going to get better if people like us make it happen.

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Eyes On The Prize!

April 2, 2022 by Elliot Williams 4 Comments

This year’s Hackaday Prize is off to a roaring start. And that’s fantastic, because this year’s challenge is a particularly important one: reducing mankind’s footprint on the earth through better energy collection, better resource use, and keeping what we’ve already got running a little bit longer. Not only is this going to be the central challenge for the next century, but it’s also a playground for hackers like us.

The first phase, Planet-Friendly Power, is in full swing, and we saw some entries on the first day! Were they cheating? Did they have inside information? Nope! Tons of hackers are working on energy efficient ways to drive their projects all along. If your Raspberry Pi data-logger can run on the fuel of the sun, it’s not only better for the world, but it’s a project that you don’t have to remember to change the batteries on.

We’ve got a challenge on recycling, one on reverse engineering stuff to keep it out of the landfill, and one on environmental monitoring and communications infrastructure. These are all great hacker topics, and showcase how folks like us can do our small parts to keep the world running without running it into the ground.

So all of you out there making mesh networks, optimizing solar projects, hacking open closed IoT networks to keep them from obsolescence, or building plastic-sorting robots, this is your chance to get some money and some recognition for your good work.

Thanks again to our Supplyframe overlords for consistently backing and believing in the purpose of the Hackaday Prize, and also to DigiKey who’s been a sponsor of the Prize many years running! Without them, we wouldn’t be able pull this off.

Hack the planet! (Non-ironically, and literally. And get money for doing it.) Hooray for the Hackaday Prize!