Iron Man Arc Reactor Clock Is A Stylish Piece

July 12, 2024 by Zoe Skyforest 4 Comments

Iron Man was the film that kicked off the Marvel craze, and is widely regarded to be better than a lot of the movies that followed. If you’re a big fan of the OG, you’re probably already drowning in Iron Man helmets and arc reactor doo-dads, but here’s one more for you. After all, you probably don’t have an arc reactor clock yet.

The build comes to us from [jerome95]. It starts with an off-the-shelf ring of addressable LEDs, which serves as the basic defining dimension for the project. The ring gets a 3D printed support structure and some non-functional copper coils to complete the basic “arc reactor” look. Inside the center sits a small 7-segment display which displays the time under the command of an ESP32. It uses a network time server so it’s always on the dot. Meanwhile, if you’re not a fan of the 7-segment version, you can always try the OLED variant of the build instead.

It’s not a complicated build; that could have been easily achieved, though. The builder could have displayed the time by making the LEDs flash different colors, instead of using a 7-segment display. However, that would have made a far more confounding clock. As it is, this design would make an excellent gift for any Marvel fan. Particularly those that acknowledge the supremacy of the film that started it all.

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You Can Use A CRT As An Audio Amplifier Tube

July 11, 2024 by Zoe Skyforest 36 Comments

When we talk about audio amplifier tubes, we’re normally talking about the glass little blobby things you might find in a guitar amplifier. We’re not normally talking about big ol’ color CRTs, but apparently they can do the job too. That’s what [Termadnator] is here to show us.

The CRT in question is a 14″ unit from a common garden variety Philips color TV. [Termadnator] pulled out the TV’s original circuitry, and replaced much of it with his own. He had to whip up a high-voltage power supply with a 555 and a laptop power supply, along with a bunch of fake MOSFETs pressed into service. He also had to build his own Leyden jar capacitor, too. The specifics of converting it to audio operation get a bit messy, but fear not—[Termadnator] explains the idea well, and also supplies a schematic. Perhaps the coolest thing, though, is the crazy color pattern that appears on the display when it’s working as an amp.

Sound output isn’t exactly loud, and it’s a little distorted, too. Still, it’s amusing to see an entire TV instead doing the job of a single amplifier tube. Video after the break.

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You Can Build A Little Car That Goes Farther Than You Push It

July 11, 2024 by Zoe Skyforest 24 Comments

Can you build a car that travels farther than you push it? [Tom Stanton] shows us that you can, using a capacitor and some nifty design tricks.

[Tom]’s video shows us the construction of a small 3D printed trike with a curious drivetrain. There’s a simple generator on board, which charges a capacitor when the trike is pushed along the ground. When the trike is let go, however, this generator instead acts as a motor, using energy stored in the capacitor to drive the trike further.

When put to the test by [Tom], both a freewheeling car and the capacitor car are pushed up to a set speed. But the capacitor car goes farther. The trick is simple – the capacitor car can go further because it has more energy. But how?

It’s all because more work is being done to push the capacitor car up to speed. It stores energy in the capacitor while it’s being accelerated by the human pushing it. In contrast, after being pushed, the freewheeling car merely coasts to a stop as it loses kinetic energy. However, the capacitor car has similar kinetic energy plus the energy stored in its capacitor, which it can use to run its motor.

It’s a neat exploration of some basic physics, and useful learning if you’ve ever wondered about the prospects of perpetual motion machines.

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Giving The Original Xbox 256 MB Of Memory

July 10, 2024 by Zoe Skyforest 20 Comments

The original Xbox forever changed the console world, because it was basically just PC components laced together in a slightly different architecture. It featured a Pentium 733 MHz CPU with just 64MB of RAM. [Prehistoricman] has been hard at work, figuring out how to up that to 256MB instead.

This isn’t [Prehistoricman’s] first rodeo. Previously, he managed to up the Xbox’s RAM to 128 MB. To figure out how to go further, he had to figure out the addressing scheme. A datasheet for the Xbox’s original memory chip was a help in this regard, as was the envytools project and an Xbox source code leak.

A BIOS hack was needed to move the auto-precharge pin to free up more address pins for the higher memory space. Furthermore, the only available memory chips that were suitable used BGA packages, so a small PCB with castellated edges was needed to adapt the chip to the Xbox’s motherboard, which expects a TQFP package.

Ultimately, getting this hack to work involved a lot of bare-metal hacking. It also won’t help the performance of commercial games at all, as they were all designed within the limitations of the original console. Still, it’s impressive to see this now-ancient platform hacked to do more. It’s also hilarious to compare it with a contemporary PC, which could simply accept 256 MB of RAM by using additional memory slots. Video after the break.

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If You Want An Expensive Chair Just Print Your Own

July 10, 2024 by Zoe Skyforest 20 Comments

The Magis Spun chair is a weird piece. It’s basically a kind of seat with a round conical base that stops it from sitting still in one place. Instead, it rolls and pivots around when you sit on it, which is apparently quite fun. They’re expensive though, which gave [Morley Kert] a neat idea. Why not 3D print one instead?

Obviously 3D printing a sofa wouldn’t be straightforward, but the Magis Spun is pretty much just a hunk of plastic anyway. The real thing is made with rotational molding. [Morley] suspected he could make one for less than the retail price with 3D printing.

With no leads on a big printer, he decided to go with a segmented design. He whipped up his basic 3D model through screenshots from the manufacturer’s website and measurements of a display model in a store. After print farming the production, the assembly task was the next big challenge. If you’re interested in doing big prints with small printers, this video is a great way to explore the perils of this idea.

Ultimately, if you want to print one of these yourself, it’s a big undertaking. It took 30-50 print days, or around 5 days spread across 15 printers at Slant 3D’s print farm. It used around $300-400 of material at retail prices, plus some extra for the epoxy and foam used to assemble it.

The finished product was killer, though, even if it looks a little rough around the edges. It rolls and pivots just like the real thing.

We don’t feature a lot of chair hacks on Hackaday, but we do feature some! Video after the break.

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A New Raspberry 5 DSI Cable Makes Using Screens Easier

July 10, 2024 by Zoe Skyforest 8 Comments

Arguably the greatest strength of the Raspberry Pi is the ecosystem — it’s well-supported by its creators and the aftermarket. At the same time, the proliferation of different boards has made things more complicated over the years. Thankfully, though, the community is always standing by to help fix any problems. [Rastersoft] has stepped up in this regard, solving an issue with the Raspberry Pi 5 and DSI screen cables.

The root cause is that the DSI cable used on the Raspberry Pi 5 has changed relative to earlier boards. This means that if you use the Pi 5 with many existing screens and DSI cables, you’ll find your flat ribbon cable gets an ugly twist in it. This can be particularly problematic when using the cables in tight cases, where they may end up folded, crushed, or damaged.

[Rastersoft] got around this by designing a new cable that avoided the problem. It not only solves the twist issue, but frees up space around the CPU if you wish to use a cooler. Thanks to modern PCB houses embracing flexible boards, it’s easy to get it produced, too.

This is a great example of the democratization of PCB and electronics production in general. 20 years ago, you wouldn’t be able to make a flex cable like this without ordering 10,000 of them. Today, you can order a handful for your own personal use, and share the design with strangers on a whim. Easy, huh? It’s a beautiful world we live in.

Build Your Own 16 MB 30-Pin SIMMs For Vintage PCs

July 9, 2024 by Zoe Skyforest 28 Comments

Today’s memory sticks have hundreds of pins and many gigabytes of RAM on board. Decades ago, though, the humble 30-pin SIMM was the state of the art where memory was concerned. If you’ve got vintage gear, you can try and hunt down old RAM, or you can copy [Bits und Bolts] and make your own.

Previously, [Bits und Bolts] built a 4 MB SIMM, but he’s now ramped up to building 16 MB RAM sticks — the largest size supported by the 30-pin standard. That’s a ton compared to most 30-pin sticks from the 1980s, which topped out at a feeble 1 MB.

We get to see four of his 16 MB sticks installed in a 386 motherboard, set up to operate in the appropriate Fast Page Mode. He was able to get the system operating with 64 MB of RAM, an amount still considered acceptable in the early Pentium 3 era. Hilariously, memtest took a full ten hours to complete a single pass with this configuration. [Bits and Bolts] also tried to push the motherboard further, but wasn’t able to get it to POST with over 64 MB of RAM.

As [Bits und Bolts] demonstrates, if you can read a schematic and design a PCB, it’s not that hard to design RAM sticks for many vintage computers. We’ve seen some other RAM hacks in this vein before, too.

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