An Homage To Daft Punk In Fan-Made Helmets Through The Years.

March 2, 2021 by 32 Comments

It’s with sadness that we note the end to an end. The French dance music duo Daft Punk have split up, announced in a video that’s has already clocked 22 million views.The band have inspired hardware geeks across the world not just with their music but the way they present themselves. A perennial project has been to replicate in some way their iconic robot helmets.

Ben Heck's 2009 take on the helmet
Harrison Krix’s 2009 take on Guy-Manuel de Homem-Christo’s helmet.

The artists themselves have been reticent about the exact technology that powers their headgear, but while this is a source of endless mystery and speculation to the music press it’s safe to assume from our perspective that their designers have the same parts at their disposal as we have. Microcontrollers, EL wire, and LEDs are universal, so the challenge lies in artistic expression with the helmet design rather than in making the effects themselves. We’ve reached into the archives for a bit of Daft Punk helmet nostalgia, so stick on Harder Better Faster and lets take a look at them, er, one more time.

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Don’t Tase Me, Keeb!

March 2, 2021 by 12 Comments

Okay, so this doesn’t really use a taser — that’s just click bait and we apologize. An actual taser would be a terrible way to train yourself to be a better typist, because depending on where you choose to deliver the shock, you could damage your typing nerves pretty quickly with a few milliamps at 50,000 volts.

Instead of a taser, [nobody6502] got a pack of prank gum off of Amazon that delivers a much more doable shock that is painful enough to get the user to type more carefully. [nobody6502] set up a simple no-pain, no-train website that presents random English words one at a time and checks for typos against an open-source list of nearly half a million entries. Misspell a word, and a get a relay-driven shock from the gum circuit.

The main brain of this pain trainer is a Particle Argon board which has I/O pins that can be controlled from the web. When the website detects a typo, it sends a signal to the Argon, which turns on a relay that activates the shock mechanism. What’s most impressive is that [nobody6502] doesn’t have a full-blown computer and programmed everything on an iPad. Check out the build video after the break.

Are you a hunt and peck typist? There’s a negative reinforcement keyboard for that.

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A FLIR One Pro Sees Again, Thanks To Some Nifty Soldering

March 2, 2021 by 29 Comments

The Flir One Pro is a thermal camera that attaches to a mobile phone with a USB-C plug. [Gigawatts] has one, and unfortunately managed to drop it, breaking the USB-C plug and rendering the device useless. The plug is separate from the main PCB, an assembly of its own with a flexible cable, but FLIR are not interested in supplying spares. What was the answer? Wire data lines into the device’s charging port, of course!

The One Pro has its own battery, and to avoid draining the phone it is charged through another USB connection, this time a socket. The data lines aren’t connected, which necessitated some very careful soldering of wire-wrap wire to an SMD package to fix. When completed and secured with glue the resulting camera works with a USB-C cable, and there are plans to mount a tripod thread receptacle in the space left by the USB-C plug.

It’s disappointing that Flir choose not to supply replacements for the USB-C plug assembly, seemingly they see the device as a throwaway piece of consumer electronics rather than the expensive instrument that it is. This modification should at lease allow some unfortunate One Pro owners to revive their dead cameras.

If you’re curious about the Flir One series of cameras, perhaps you’d like to read our review.

Lowering The Electricity Bill By Mining Cryptocurrency

March 1, 2021 by 119 Comments

Wherever you are in the world, the chances are that a large portion of your utility bill is for heating. This was certainly the case for [Christian Haschek], who realized he can use a cryptocurrency mining rig to offset some of his heating costs.

[Christian]’s central ventilation and water heating is handled by a heat pump, which uses a lot of electricity, especially in the Austrian winter. When it draws in cool air, it first needs to heat it to the thermostat temperature before venting it to the house. Cryptocurrency mining rigs are also heavy electricity users, but they also produce a lot of heat, which can be used to preheat the air going to the heat pump. [Christian] had four older AMD R9 390 GPUs (equivalent to the Nvidia GeForce GTX 970) lying around, so he mounted them in a server case and piped the heat pump’s air intake through the case.

At the time he did the tests, earnings from mining were enough to cover half of his heating bill, even after paying for the mining rig’s electricity. That is not taking into account the electricity savings from the preheated air. He only shows the results of one evening, where it dropped his electricity usage from around 500Wh to below 250Wh. We would like to see the long-term results, and it would be an interesting challenge to build a model to calculate the true costs or savings, taking into account all the factors. For instance, it could be possible to save costs even if the mining rig itself is running at a slight loss.

Of course, this is not a new idea. A quick internet search yields several similar projects and even some commercial crypto mining space heaters. We do like the fact that [Christian] reused some hardware he already had and integrated it into his central heating rather than using it as a mobile unit.

When [Christian] isn’t building crypto heaters, he can be found flooding phishing scams with fake data, or tracking down corporate spies.

Open Source CAM Software In The Browser

March 1, 2021 by 24 Comments

3D printers, desktop CNC mills/routers, and laser cutters have made a massive difference in the level of projects the average hacker can tackle. Of course, these machines would never have seen this level of adoption if you had to manually write G-code, so CAM software had a big part to play. Recently we found out about an open-source browser-based CAM pack created by [Stewert Allen] named Kiri:Moto, which can generate G-code for all your desktop CNC platforms.

To get it out of the way, Kiri:Moto does not run in the cloud. Everything happens client-side, in your browser. There are performance trade-offs with this approach, but it does have the inherent advantages of being cross-platform and not requiring any installation. You can click the link above and start generating tool paths within seconds, which is great for trying it out. In the machine setup section you can choose CNC mill, laser cutter, FDM printer, or SLA printer. The features for CNC should be perfect for 90% of your desktop CNC needs. The interface is intuitive, even if you don’t have any previous CAM experience. See the video after the break for a complete breakdown of the features, complete with timestamp for the different sections.

All the required features for laser cutting are present, and it supports a drag knife. If you want to build an assembly from layers of laser-cut parts, Kiri:Moto can automatically slice the 3D model and nest the 2D parts on the platform. The slicer for 3D printing is functional, but probably won’t be replacing our regular slicer soon. It places heavy emphasis on manually adding supports, and belt printers like the Ender CR30 are already supported.

Kiri:Moto is being actively improved, and it looks as though [Stewart] is very responsive to community inputs. The complete source code is available on GitHub, and you can run an instance on your local machine if you prefer to do so. Continue reading “Open Source CAM Software In The Browser”

Machining A Honing Jig Will Keep Skills Sharp

March 1, 2021 by 9 Comments

[Amy Makes Stuff] has long used a pair of diamond honing blocks to freehand sharpen planes, chisels, and all the other dull things around the shop. Although this method works fairly well, the results are often inconsistent without some kind of jig to hold the blade securely as it’s being sharpened. These types of devices are abundant and cheap to buy, but as [Amy] says in the video after the break, then she doesn’t get to machine anything. Boy, do we know that feeling.

[Amy] was able to make this completely out of stuff she had lying around, starting with a block of scrap aluminium that eventually gets cut into the two halves of the jig. The video is full of tips and tricks and it’s really interesting to see [Amy]’s processes up close. Our favorite part has to be that grippy knob that expands and contracts the jig. [Amy] made it by drilling a bunch of holes close to the outside edge of a circle, and then milled away the edge until she had a fully fluted knob. Once she had the jig finished, she upgraded her honing blocks by milling a new home for them out of milky-white high-density polyethylene.

Mills are fantastic tools to have, but they’re a bit on the pricey side. If you’re just getting started, why not convert a drill press into a mill? Wouldn’t that be more fun that just buying one?

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Shredding The Ice With Powered Skates

March 1, 2021 by 9 Comments

The availability of small and powerful brushless motors has been instrumental in the development of so-called micro-mobility vehicles. But if your commute involves crossing a frozen lake, you might find the options a bit lacking. Fortunately [Simon] from [RCLifeOn] now has a solution for you in the form of motorized ice skates.

[Simon] used 3D printed brackets to mount outrunner brushless motors to the back of a pair of ice-skates. The spinning outer housing of the motor is used as the wheel, with a bunch of studs threaded in it to dig into the ice and provide traction. At first [Simon] tried to use a pair of RC car springs to keep the motor in contact with the ice, but spring force was insufficient for the task, so he ended up rigidly mounting the motors. Getting proper traction on the ice from a standstill was still tricky, so he ended up leaning back to push the motor down, which also had the effect of putting him off balance, limiting the practical acceleration. The most obvious solution for the tracking problem seems to be stronger springs, but we assume he didn’t have any on hand. The batteries are held in a backpack, with cables running down to the skates, and a wireless electric skateboard controller is used for throttle control.

The obvious risk of these skates is of the studded motors inadvertently becoming meat grinders if you fall. It still looks like a fun project, and we wouldn’t mind having a go on those skates.

[Simon] likes messing around with brushless motors, and has done everything from a jet-powered surfboard to a gyro-stabilized RC “motorbike”.

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