Congratulations Low-Power Winners

April 13, 2023 by Elliot Williams 13 Comments

Congratulations to the winners of the 2023 Hackaday.io Low Power Contest! We challenged you to show us how much you could do with how little, and you did not disappoint. Our judges have put their heads together, and thanks to Digi-Key, our contest sponsor, the top three entries will be taking home a $150 gift certificate for yet more hacking supplies.

We saw a great diversity of ideas here, all on the low-power theme. So without further ado…

The Prize Winners

[Christoph]’s Ultra Low Power RF-Sensor arose out of necessity. Having just repaired a shower drain, he couldn’t be sure that it wouldn’t start leaking again at some point in the future, but couldn’t go ripping up the floor under the shower tray every week to check. He needed a remote moisture sensor that would do the job for a long time with no intervention.

This superb solution combines an Atmel ATmega328P, an HDC1080 humidity sensor, a 433 MHz radio transmitter, and an RTC to keep power consumption super-low when everything else is shut down. Idling at 600 nA total most of the time, taking a reading every 15 minutes, this device should last for 12 years, and it’s been installed and running for five so far, so we’d say that it’s already proven itself very worthy of taking home the prize here.

[BleakyTex]’s Compact, low-power Geiger counter is absolutely the lowest power Geiger counter we’ve ever seen and maybe also the cutest. With the ambitious goal of running up to two years on two tiny LR44 batteries and a proven runtime of about six months by now, this is the radiation detector you can take with you every day, should you need to. The key is a custom HV section that’s designed for efficiency and the screen – even today, it’s still hard to beat the low power consumption of the humble LCD screen. All this, and it still makes those satisfying clicks when it’s enabled. [BleakyTex] says he might make a kit from this, and we absolutely hope he does!

[mircemk]’s Microwatt Pulse Motor took one of our suggestions in the announcement of the contest and ran with it. This eight-pole handmade electric motor doesn’t actually do anything other than spin, but it does that when hooked up to a literal potato. Pulling around 40 mA at 600 mV, it can easily run on solar power with enough power left over to charge up a battery for when the sun doesn’t shine. All of this is made with extremely simple circuitry and parts scavenged from old relays with a sewing needle held up by a magnet for the bearing. This is pure ingenuity and a sweet low-power demo.

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Hackaday Podcast 213: Not Your Grandfather’s Grandfather Clock, The Engineering Behind Art, Hydrogen Powered Flight

April 7, 2023 by Tom Nardi 7 Comments

Join Hackaday Editors Elliot Williams and Tom Nardi as they review some of their favorite hacks and projects of the past week. The episode starts with a discussion about the recently announced Artemis II crew, and how their mission compares to the Apollo program of the 1960s and 70s.

From there, the pair theorize as to why Amazon’s family of Echo devices have managed to evade eager hardware hackers, take a look at a very impressive SMD soldering jig created with some fascinating OpenSCAD code, marvel at the intersection of art and electronic design, and wonder aloud where all the cheap motorized satellite dishes are hiding. Stick around for some questionable PCB design ideas, a Raspberry Pi expansion that can read your mind, and the first flight of a (semi) hydrogen-powered aircraft.

Check out the links below if you want to follow along, and as always, tell us what you think about this episode in the comments!

Download your own personal copy!

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A Soft Soldering Jig For Hard Projects

April 5, 2023 by Matthew Carlson 20 Comments

We’ve seen some absolutely gorgeous freeform circuit sculptures. There’s a mystic quality to taking what has normally been hidden away for safety and reliability reasons and putting it on display for everyone to see. Of course, creating these unique circuit sculptures takes considerable time and effort. [Inne] created several silicone soldering jigs to help with these tricky joints.

While a vice or helping hands is crucial for many joints, when dealing with tiny SMD components and exacting angles, you need something a little more specialized. Double-sided tape is often recommended, but heat ruins the adhesive and SMD components like to stick to soldering iron tips. Since silicone tends to be heat resistant, it makes a decent material for soldering on. [Inne] uses a city analogy with the cups for soldering called plazas, each with a hole (called a manhole) leading to a foot-switch vacuum pump to keep parts in place. The OpenSCAD code is available on GitHub under a GPLv3 license. It generates a two-part mold that you can cast in A-8/A-15 silicone.

It’s a clever project that makes it far easier to assemble gorgeous circuit sculptures. We love the design and thought that went into it, particularly the naming scheme as we often find appropriately naming variables in OpenSCAD quickly becomes difficult.

Hackaday Podcast 186: Weighing Cats, Slamming VU Meters, Slimmer Skimmers, And Clean Air On The Cheap

September 23, 2022 by Dan Maloney 3 Comments

Hackaday Editor-in-Chief Elliot Williams took time out from Supercon planning to join Staff Writer Dan Maloney for a look through the hacking week that was. We always try to keep things light, but it’s hard sometimes, especially when we have to talk about wars past and present and the ordnance they leave behind. It’s also not a lot of fun to talk about a continent-wide radio outage thanks to our angry Sun, nor is learning that a wafer-thin card skimmer could be lurking in your ATM machine.

But then again, we did manage to have some fun by weighing cats to make sure they’re properly fed, and making music by pegging VU meters. We also saw how to use PCBs to make a beautiful yet functional circuit sculpture, clean up indoor air on a budget, and move microns with hardware store parts. And we also got to celebrate a ray of international hope by looking back on the year that taught us much of what we know about the Earth.

Check out the links below if you want to follow along, and as always, tell us what you think about this episode in the comments!

Direct download here!

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The Wonderfully Weird Wireframe Game Boy That Actually Works

June 7, 2022 by Robin Kearey 10 Comments

We see lots of great hardware projects here at Hackaday: some are extremely clever, some are beautifully made, and some show off their maker’s extraordinary skills. Others are just plain weird, but still manage to include some or even all of the above categories. Case in point: [kgsws]’s Wireframe Game Boy project. It’s probably the weirdest Game Boy mod we’ve seen so far, but also extremely impressive from a technical point of view.

The basic idea was to take a Game Boy Pocket and remove its outer shell, replacing it with a cage-like structure made from thick copper wire. That sounds kind of reasonable; think of those transparent Game Boys, only without the transparent plastic. [kgsws]’s video (embedded below) shows him bending a few pieces of copper wire to match the Game Boy’s overall shape, then adding mounts for the cartridge socket, the display, the D-pad and the four buttons. After that you’d simply slide in the PCB, insert some batteries and off you go, right?

Well, this wouldn’t do for [kgsws]. What he did instead, was use a hot air desoldering station to remove all chips from the motherboard and proceed to mount them directly inside the wireframe without a PCB. He then used dozens of thin copper wires to hook up the cartridge slot, the CPU, RAM, buttons, and everything else to reconstruct the motherboard’s functionality. We cringed a bit when we saw him brutally cut the display’s flat cable with scissors, and that too was connected to the rest of the system through flying wires, soldered directly onto the screen’s contacts.

Amazingly, the system managed to boot up and run its software after it got a pair of fresh batteries. Despite a slightly dodgy D-pad, the naked Game Boy actually turned out to be fully usable, although it probably requires somewhat more delicate handling than Nintendo’s famously bullet-proof hardware. We’ve seen Game Boys modded into all kinds of different shapes and sizes, but none quite as unusual as today’s. If it’s wireframe construction you like, check out this eerie sound generator or this beautiful circuit sculpture clock. Continue reading “The Wonderfully Weird Wireframe Game Boy That Actually Works” →

2022 Hackaday Prize: Congratulations To The Planet-Friendly Power Finalists!

May 23, 2022 by Elliot Williams 1 Comment

The 2022 Hackaday Prize is focused on lightening our load on the planet, and one obvious way to do so is to get and store renewable power locally — the theme of our first challenge round: Planet-Friendly Power. Our judges have studied all the entries and their votes are in. All of these ten projects will receive $500 right now and are eligible for the Grand Prize of $50,000, to be announced in November.

Most of the alternative energy sources you’d expect to see were represented: solar, wind, and water. But everyone brought their own twists to the topic. For instance, the Low Cost Solar Panel Solution demonstrates that there’s a lot more to a DIY solar project than just the panel. You need to support it, protect it, turn it to face the sun, and convert and store the power harvested. And [JP Gleyzes] even goes so far as to use recycled water bottles to make the 3D-printed parts. Sun Chaser 2 puts the panel on wheels, driving it out of the shade to collect maximum energy in a real-world backyard situation. Cute!

Finally, we had two great kite projects to harvest wind with minimal setups on the go: Kite Propulsion and Energy Independence While Travelling. Both are still in the experimental stages, but both have great documentation of where the research projects stand.

Finally, Moss Microbial Fuel Cell is really out there on the edge of current research. Combining the reasonably well established microbial fuel cell with the photosynthetic power of moss, [Guru-san] is able to light an LED for a few seconds at a time. It’s not much, but it’s also a desktop-scale project. And who can say no to leaf-shaped capacitor circuit sculptures to store the energy?

Hacker Power!

Those are just a few of the ten finalists, listed here in no particular order. Congratulations to all of you! We’re excited to follow your projects along their journey, and wish you all the best.

Ten Finalists from Planet-Friendly Power

Antique Beat Box Showcases 1950’s Engineering Prowess

March 3, 2022 by Ryan Flowers 35 Comments

Before you could just put a drum machine app on your phone, or fire up Garage Band, there were breakthroughs like the Roland 808 drum machine. But that’s not where it all started. In 1959 a company called Wurlitzer (known for things like juke boxes, pianos, and giant pipe organs) produced a new device that had musicians worried it would put drummers out of a job: The 1959 Wurlitzer Sideman. And in the video below the break, we have the joy of watching [LOOK MUM NO COMPUTER] open up, explain, and play one of these marvelous machines.

Can you spot the early circuit sculpture?

It’s noteworthy that in 1959, almost none of the advancements we take for granted had made it out of the laboratory. Transistors? Nope. Integrated Circuits? Definitely not. What does that leave us with? Vacuum tubes (Valves for those across the pond), resistors, capacitors, relays, and… motors? Yep. Motors.

The unit is artfully constructed, and we mean that quite literally- the build was clearly done with care and it is easy to see an early example of circuit sculpture around the 3 minute mark. Electromechanical mechanisms take on tasks that we’d probably use a 555 for these days, but for any of you working on mechanical projects, take note: Wurlitzer really knew what they were doing, and there are some excellent examples of mechanical and electrical engineering throughout this primordial beat box.

If you move to the beat of interesting drum machines, you might enjoy this Teensy based Open Source drum machine that you can build. No tubes required!

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