Author: Lewin Day

3024 Articles

‘Robotic’ Dress Uses Simple Techniques To Combine 3D Printed Parts With Fabric

January 22, 2025 by 17 Comments

By and large, our clothes don’t actively move. They’re simple pieces of fabric assembled to sit nicely on our bodies, and little more. [anoukwipprecht] created something a little more technological and confronting, though, with the Robotic Open-Source Scale Dress.

Right from the drop, you can see what the dress is all about. It’s an open-shoulder design that has eight large moving scales mounted on the front. These scales are printed, and each features its own servo for independent movement. The scale baseplates are designed to hide the servos themselves, creating a sleeker look that hides the mechanism underneath. Each baseplate is also perforated with holes, allowing it to be sewn on to the base garment in a stout fashion. The dress itself is created with thick neoprene fabric, enabling it to take the weight of the scale assemblies without sagging or pulling away from the body. You can even customize the scales in various ways—such as adding feathers instead.

The dress is a neat piece, and would catch eyes for its pointy scales alone. The fact that they can start moving at any time only increases the garment’s impact. We’ve seen some other great fashionable uses of 3D printing before, too, like these awesome printed shoes. Meanwhile, if you’re printing your own garments in your home lab, don’t hesitate to let us know! Or, even better… wear them to the next Hackaday event!

Interactive LED Matrix Is A Great Way To Learn About Motion Controls

January 21, 2025 by 4 Comments

It’s simple enough to wire up an LED matrix and have it display some pre-programmed routines. What can be more fun is when the LEDs are actually interactive in some regard. [Giulio Pons] achieved this with his interactive LED box, which lets you play with the pixels via motion controls.

The build runs of a Wemos D1 mini, which is a devboard based around the ESP8266 microcontroller. [Giulio] hooked this up to a matrix of WS2812B addressable LEDs in two 32×8 panels, creating a total display of 512 RGB LEDs. The LEDs are driven with the aid of an Adafruit graphics library that lets the whole display be addressed via XY coordinates. For interactivity, [Giulio] added a MPU6050 3-axis gyroscope and accelerometer to the build. Meanwhile, power is via 18650 lithium-ion cells, with the classic old 7805 regulator stepping down their output to a safe voltage. Thanks to the motion sensing abilities of the MPU6050, [Giulio] was able to code animations where the LEDs emulate glowing balls rolling around on a plane.

It’s a simple build, but one that taught [Giulio] all kinds of useful skills—from working with microcontrollers to doing the maths for motion controls. There’s a lot you can do with LED matrixes if you put your mind to it, and if you just start experimenting, you’re almost certain to learn something. Video after the break.

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Family Bass Is Musical NES Magic

January 21, 2025 by 6 Comments

The Family BASIC keyboard was a peripheral that was built for programming on the Nintendo Family Computer, or Famicom.  As [Linus Åkesson] demonstrates, though, it can do so much more. Meet the Family Bass.

The core of the project is a special adapter which [Linus] created to work with the Family BASIC keyboard. Traditionally, the keyboard plugs into the Famicom’s expansion port, but [Linus] wanted to hook it up to the controller port on a Nintendo Entertainment System instead. Getting them to talk was achieved with an ATtiny85 which could cycle through the 72-key matrix in the keyboard and spit out a serial stream of data the controller port could understand.

On the NES end, the console is set up to run custom code from [Linus] that lets him play the internal sound chip’s triangle wave with the keyboard. He demonstrates this ably in a video where he performs a song called Platform Hopping along with some of his other retro computer instruments.

We’ve seen [Linus] build some other great instruments in the past too, which are both creative and nostalgic. Video after the break.

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A Quarter And A Dime Will Get You A Commodore 64 Softmodem

January 20, 2025 by 42 Comments

Back in the 1980s, a viable modem cost hundreds of dollars. Even in the 1990s, you were looking at spending a a Benjamin or two to get computer squawking down the phone lines. According to [Cameron Kaiser], though, it’s possible to whip up a softmodem using a Commodore 64 for much cheaper than that. How much? Just 35 cents, we’re told!

The inspiration was simple—Rockwell apparently used to build modems using the 6502. The Commodore 64 has a 6502 inside, pretty much, so surely it could be a softmodem, right? Indeed, one [John Iannetta] had done this in a one-way form in the 1980s, using the Commodore 64’s SID audio chip to output data in sound form. In 1998, he espoused the 35-cent modem—basically, the price of buying an RCA jack to hook up a phone line to your Commodore 64.

As [Cameron] found out, the concept still works today, as does [John’s] code, but it’s more like 68 cents in 2025 dollars. With the right bits and pieces, and a little code, you can have your C64 modulating data into sound at rates of 300 baud.

It’s hacky, slow, and there’s no real way to receive—the C64 just doesn’t have the chops to demodulate these kinds of signals on its own. You also shouldn’t use it on a real phone line if you don’t want to damage your C64. Still, it’s a wonderful bit of hackery, and it’s fun to see how well it works. We’ve seen some other great Commodore 64 modem projects before, like the ever-useful RetroModem. Meanwhile, if you’ve got your own communication hacks for the computers of yesteryear, don’t hesitate to let us know!

3D-Printed RC Car Focuses On Performance Fundamentals

January 20, 2025 by 6 Comments

There are a huge number of manufacturers building awesome radio-controlled cars these days. However, sometimes you just have to go your own way. That’s what [snamle] did with this awesome 3D-printed RC car—and the results are impressive.

This build didn’t just aim to build something that looked vaguely car-like and whizzed around on the ground. Instead, it was intended to give [snamle] the opporunity to explore the world of vehicle dynamics—learning about weight distribution, suspension geometry, and so many other factors—and how these all feed into the handling of a vehicle. The RC side of things is all pretty straightforward—transmitter, receiver, servos, motors, and a differential were all off-the-shelf. But the chassis design, the steering, and suspension are all bespoke—designed by [snamle] to create a car with good on-road handling and grip.

It’s a small scale testbed, to be sure. Regardless, there’s no better way to learn about how a vehicle works on a real, physical level—you can’t beat building one with your own two hands and figuring out how it works.

It’s true, we see a lot of 3D printed RC cars around these parts. Many are built with an eye to robotics experimentation or simply as a learning exercise. This one stands out for its focus on handling and performance, and of course that nicely-designed suspension system. Video after the break.

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Modulathe Is CNC Ready And Will Machine What You Want

January 20, 2025 by 12 Comments

Once upon a time, lathes were big heavy machines driven by massive AC motors, hewn out of cast iron and sheer will. Today, we have machine tools of all shapes and sizes, many of which are compact and tidy DIY creations. [Maxim Kachurovskiy]’s Modulathe fits the latter description nicely.

The concept behind the project was simple—this was to be a modular, digital lathe that was open-source and readily buildable on a DIY level, without sacrificing usability. To that end, Modulathe is kitted out to process metal, wooden, and plastic parts, so you can fabricate in whatever material is most appropriate for your needs.

It features a 125 mm chuck and an MT5 spindle, and relies on 15 mm linear rails, 12 mm ball screws, and NEMA23 stepper motors. Because its modular, much of the rest of the design is up to you. You can set it up with pretty much any practical bed length—just choose the right ball screw and rail to achieve it. It’s also set up to work however you like—you can manually operate it, or use it for CNC machining tasks instead.

If you want a small lathe that’s customizable and CNC-ready, this might be the project you’re looking for. We’ve featured some other similar projects in this space, too. Do your research, and explore! If you come up with new grand machine tools of your own design, don’t hesitate to let us know!

Thanks to [mip] for the tip!

You Can Now Play DOOM In Microsoft Word, But You Probably Shouldn’t

January 20, 2025 by 23 Comments

DOOM used to primarily run on x86 PCs. It later got ported to a bunch of consoles with middling success, and then everything under the sun, from random embedded systems to PDFs. Now, thanks to [Wojciech Graj], you can even play it in Microsoft Word.

To run DOOM inside Microsoft Word, you must enable VBA macros, and ignore security warnings, to boot. You’ll need a modern version of Word, and it will only work on Windows on an x64 CPU. As you might imagine, too, the *.DOCM file is not exactly lightweight. It comes in at 6.6 MB, no surprise given it contains an entire FPS. It carries inside it a library called doomgeneric_docm.dll and the whole doom1.wad data file. Once the file is opened, a macro then extracts all the game data and executes it.

If you think that Microsoft Word doesn’t really have a way of displaying live game graphics, you’d be correct. Instead, that DLL is creating a bitmap image of the game state for every frame, which is then displayed inside Word itself. It uses the GetAsyncKeyState function to grab inputs from the arrow keys, number keys, and CTRL and space so the player can move around. It certainly sounds convoluted, but it actually runs pretty smoothly given all the fuss.

While this obviously works, you shouldn’t get in the habit of executing random code in your word processor. It’s just not proper, you see, like elbows on the dinner table! And, you know. It’s insecure. So don’t do that.

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