Month: May 2017

Hackaday Prize Entry: Secure Storage On SD Cards

May 8, 2017 by 109 Comments

Here’s a puzzler for you: how do you securely send data from one airgapped computer to another? Sending it over a network is right out, because that’s the entire point of an airgap. A sneakernet is inherently insecure, and you shouldn’t overestimate the security of a station wagon filled with tapes. For his Hackaday Prize entry, [Nick Sayer] has a possible solution. It’s the Sankara Stones from Indiana Jones and the Temple of Doom, or a USB card reader that requires two cards. Either way, it’s an interesting experiment in physical security for data.

The idea behind the Orthrus, a secure RAID USB storage device for two SD cards, is to pair two SD cards. With both cards, you can read and write to this RAID drive without restriction. With only one, the data is irretrievable so they are safe during transit if shipped separately.

The design for this device is based around the ATXMega32A4U. It’s pretty much what you would expect from an ATMega, but this has a built-in full speed USB interface and hardware AES support. The USB is great for presenting two SD cards as a single drive, and the AES port is used to encrypt the data with a key that is stored in a key storage block on each card.

For the intended use case, it’s a good design. You can only get the data off of these SD cards if you have both of them. However, [Nick] is well aware of Schneier’s Law — anyone can design a cryptosystem that they themselves can’t break. That’s why he’s looking for volunteers to crack the Orthrus. It’s an interesting challenge, and one we’d love to see broken.

The HackadayPrize2017 is Sponsored by:

The SHA2017 Badge Revealed

May 8, 2017 by 19 Comments

It’s that excellent time of year in which one slowly comes to the realisation that the summer’s eagerly anticipated events are now no longer at some impossibly distant point in the future, but in fact only a matter of a few months or even weeks away. For our European readers, this means that August’s SHA2017 hacker camp is appearing on the horizon, four days of outdoor technological indulgence for our community in a scout camp on the Dutch polders.

As it is a tradition of such events to have an electronic badge incorporating ever more impressive levels of computing power, it follows that the pre-production announcement of an event badge has become an important milestone in the countdown to the day. SHA2017 is no exception, and thus today we see the announcement of their take on the essentials for a hacker camp badge in 2017.

The most immediately obvious thing about the badge is its 296×128 pixel e-ink display, which should provide an immediate benefit in terms of battery life. There are the usual plethora of interfaces, GPIOs, USB, and Neopixels, and the user input is via a set of capacitive buttons. Powering the device is an ESP32, and a key design goal was to have a network for the badges that does not put pressure on the 2.4GHz infrastructure. We’re guessing they’re doing this using raw WiFi packets in the same way as the MAGfest swadge. On the software front it will provide a straightforward development route via MicroPython, and there will be an app library for those without the inclination to code their own. You can get an early look at the schematic from the project repo (PDF).

Their target is to have the badge ready and with stable software on day 1 of the event, a laudable aim if they can manage it.

Members of the Hackaday team will be making the trip to the Netherlands for SHA2017, we look forward to seeing you if you attend too, and please show us anything interesting you do with your badges! Keep your eyes peeled for the Jolly Wrench, and come say hello. You’ll find me with the OxHack contingent and giving a talk on the kit biz which I have also published in the Project to Kit series of articles.

We’ve covered so many badges here at Hackaday that we could almost serve of a retrospective exhibition of the art form. Of particular interest to us though is our own [Voja Antonic]’s badge for last year’s Hackaday SuperConference.

Thanks [Sebastius] for the tip.

Make Munich Was Awesome

May 8, 2017 by 8 Comments

It was a good weekend to be geeky in Bavaria. In addition to our own Hackaday Prize Bring-a-Hack party, there was the reason that we scheduled it in the first place, Munich’s independent DIY expo, Make Munich.

If you’re a loyal Hackaday reader, many of the projects would seem uncannily familiar. I walked in and was greeted by some beautiful word clocks in both German and English, for instance. Still, seeing the Open Theremin being sold with an “as seen on Hackaday” sticker made us smile. And then we had a great conversation about [Urs Gaudenz]’s other project: DIY biological apparatus, also seen on Hackaday.

There were robots galore. Someone (from Gmünd?) was driving around a graffiti-bot and spraying the floor with water instead of paint or chalk to very nice effect. The full evolution of the Zoobotics robot family was on display. Even the Calliope (a German version of the micro:bit) booth had this cute Bluetooth vibrobot. Join me after the break as I dive into all of the great stuff on display over the weekend.

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The Dangers Of Engineering While Unlicensed

May 8, 2017 by 243 Comments

Citizen engineers, beware the Beaver State. If you want to discuss engineering in a public setting, you’d better have a license. If you don’t, you could end up like Oregon resident Mats Järlström — paying a $500 fine and being threatened with even larger civil penalties and jail time.

The story of how Järlström became ensnared in this unfortunate series of events begins innocently enough, and it’s a story that any Hackaday reader can probably relate to. After his wife received a traffic ticket in the mail from a red-light camera in the town of Beaverton, Järlström began pondering the math of traffic signal timing. After a little digging, he found the formula used for calculating the time traffic signals stay in the yellow stage. Moreover, he found a flaw in the formula, which dates back to 1959, that could lead to incorrect violations issued by automated traffic cameras.

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These Twenty Designs Just Won $1000 In The Hackaday Prize

May 8, 2017 by 35 Comments

Today we’re excited to announce the winners of the Design Your Concept phase of The Hackaday Prize. These projects just won $1000 USD, and will move on to the final round this fall.

Hackaday is currently hosting the greatest hardware competition on Earth. We’re giving away thousands of dollars to hardware creators to build the next great thing. Last week, we wrapped up the first 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 are still four more challenges to explore over the next few months. So far the results have been spectacular. But we’re only a fifth of the way through the Hackaday Prize. So as you celebrate and congratulate the twenty projects below, there’s ample opportunity to get in the game with your own project.

The winners for the Design Your Concept portion of the Hackaday Prize are, in no particular order:

Design Your Concept Hackaday Prize Finalists:

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A Queen Mystery: The Legend Of The Deacy Amp

May 8, 2017 by 56 Comments

It sounds like a scene from a movie. A dark night in London, 1972. A young man walks alone, heading home after a long night of practicing with his band. His heavy Fender bass slung over his back, he’s weary but excited about the future. As he passes a skip (dumpster for the Americans out there), a splash of color catches his attention. Wires – not building power wires, but thinner gauge electronics connection wire. A tinkerer studying for his Electrical Engineering degree, the man had to investigate. What he found would become rock and roll history, and the seed of mystery stretching over 40 years.

The man was John Deacon, and he had recently signed on as bassist for a band named Queen. Reaching into the skip, he found the wires attached to a circuit board. The circuit looked to be an amplifier. Probably from a transistor radio or a tape player. Queen hadn’t made it big yet, so all the members were struggling to get by in London.

Deacon took the board back home and examined it closer. It looked like it would make a good practice amplifier for his guitar. He fit the amp inside an old bookshelf speaker, added a ¼ “ jack for input, and closed up the case. A volume control potentiometer dangled out the back of the case. Power came from a 9-volt battery outside the amp case. No, not a tiny transistor battery; this was a rather beefy PP-9 pack, commonly used in radios back then. The amp sounded best cranked all the way up, so eventually, even the volume control was removed. John liked the knobless simplicity – just plug in the guitar and play. No controls to fiddle with.

And just like that, The Deacy amp was born.

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Powerful, Professional Brushless Motor From 3D-Printed Parts

May 8, 2017 by 23 Comments

Not satisfied with the specs of off-the-shelf brushless DC motors? Looking to up the difficulty level on your next quadcopter build? Or perhaps you just define “DIY” as rigorously as possible? If any of those are true, you might want to check out this hand-wound, 3D-printed brushless DC motor.

There might be another reason behind [Christoph Laimer]’s build — moar power! The BLDC he created looks more like a ceiling fan motor than something you’d see on a quad, and clocks in at a respectable 600 watts and 80% efficiency. The motor uses 3D-printed parts for the rotor, stator, and stator mount. The rotor is printed from PETG, while the stator uses magnetic PLA to increase the flux and handle the heat better. Neodymium magnets are slipped into slots in the rotor in a Halbach arrangement to increase the magnetic field inside the rotor. Balancing the weights and strengths of the magnets and winding the stator seem like tedious jobs, but [Cristoph] provides detailed instructions that should see you through these processes. The videos below shows an impressive test of the motor. Even limited to 8,000 rpm from its theoretical 15k max, it’s a bit scary.

Looking for a more educational that practical BLDC build? Try one cobbled from PVC pipes, or even this see-through scrap-bin BLDC.

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