The Water-Cooled PS3 Sony Never Made

November 6, 2025 by 1 Comment

The Playstation 3 had a dizzying number of variants from its first launch in 2006 to when they stopped selling the slim models over a decade later in 2017. Of all those, you’ve probably never heard of the water-cooled Playstation 3 Pro, for the simple reason that it did not exist until [Zac] of Zac Builds created it in a video to push the limits of the now-vintage hardware.

This hack isn’t totally unique; you used to be able to buy watercooling kits for the PS3, but like the console itself, those have long since left the market. Of course [Zac] is hacking this Playstation 3 in 2025, so he’s doing it in a very modern way: with 3D scanning and CNC machining.

After very, very carefully removing the heat spreaders from the CPU and GPU to replace the dried out thermal paste, [Zac] scans the main board to design mounts for the dual waterblocks. Those mounts are, of course, 3D printed in carbon fibre reinforced nylon. Since the mount is going to be under pressure and rather warm, he anneals the nylon for 24 hours at 85 degrees. 3D printing also comes into play mount the pump and radiator into a handsome case that nearly looks like something Sony could have put out back in the day. That whole workflow seems normal today, but would have been borderline science-fiction with the console was new. .

Note that this is not a 2007 unit. [Zac] picked the newest PS3 he could that was still hackable–each revision got more efficient as the chips moved to smaller architectures, but Sony did eventually lock down the firmware to prevent overclocking. Which is of course the point here: since the stock hardware leaves a lot on the table in terms of thermal management, [Zac] figured there would be great performance boosts available.

As it happens, [Zac] was right about performance boosts– on GPU limited titles, he’s getting upto 50% higher frame rates. (Which makes sense, given he’s overclocking the GPU by about 50%.) Loading times are also much improved with the inevitable HDD to SSD swap.

The last time we featured a watercooled playstation hack was back in 2011, for a PS3 laptop of all things. The modern workflow makes it much easier. It’s been a few years since we last posted a Playstation 3 hack. Perhaps now, as they age into becoming “retro” we’ll see a revival in that category.

Thanks to [Stephen Walters] for the tip, via Yanko Design, which seems to provide an LLM-assisted (or generated) summary of [Zac]’s video.

Continue reading “The Water-Cooled PS3 Sony Never Made”

ABCCAD Is Voxels Meets LEGO In AR

November 6, 2025 by 2 Comments

We get it, CAD software can be daunting to learn. Somehow [Boaztheostrich] found it so daunting he procrastinated his way into a AR voxel-based CAD app he calls “ABCCAD”, written in Godot for the Meta Quest 3.

The app is simplicity itself: pressing A or X on the controller spawns a cube, which you can place wherever you like in virtual space by moving the controller in real space. The trigger then saves the cube position. Grabbing a cube uses the controller’s grab buttons. You can even change colors (with B or Y), but like in OpenSCAD it appears that’s not actually going to have any effect on the exported STL. Check it out in action in the demo video embedded below.

As far as CAD applications go, this is as simplistic as it gets, but there’s a certain charm to its simplicity. It’s almost like virtual LEGO. Besides, TinkerCAD wasn’t much more complicated when it started out, and look at it now.

Sure, one could say if [Boaz] wanted to do CAD he’d have been better off putting the time into learning good old OpenSCAD or FreeCAD (which can now get you SolidWorks certs, apparently), but this is a fun little app that let him stretch his chops in Godot, another great open-source tool. ABCCAD is, itself, open-source under an MIT license.

We seem to have a paucity of posts under the Godot tag, so if you’ve got a hack that uses the open-source game engine, please send us a tip.

Continue reading “ABCCAD Is Voxels Meets LEGO In AR”

I/V plot at various voltage levels

2025 Component Abuse Challenge: Reverse Biasing An NPN BJT

November 6, 2025 by 6 Comments

For the Component Abuse Challenge our hacker [Tim Williams] observes that N-P-N reads the same way forwards and backwards, so… what happens if we reverse bias one? (Note: this remark about N-P-N reading the same forward and backward is a lighthearted joke; in fact the level of doping in the emitter and collector is different so those Ns are not fungible and will exhibit different properties and have different characteristics.)

What happens if we reverse bias an NPN transistor?In the margin you can see how the question was originally posed by Bob Pease back in March 18, 1996.

In his article [Tim] mentions that some transistors are specifically designed to operate when reverse biased, which [Tim] calls “inverted mode”, whereas most transistors are not designed to work in this fashion and that’s the sort of abuse that could damage the component and lead it to malfunction.

But what is Vout? [Tim] reports that he measured approximately -0.4 volts using his high-impedance meter. We tried this experiment in the lab ourselves but we were not able to duplicate [Tim]’s result; however there is a long list of potential reasons for such an outcome. If you do this experiment yourself we would love to hear about your results in the comments section!

If you’re still learning about transistors you might like to check out our five part series on transistors as amplifiers, starting here: Won’t Somebody, Please, Think Of The Transistors!

Thanks to [Tim] for his submission, we wish him the best of luck in the competition!

2025 Hackaday Component Abuse Challenge

Making Steam-Powered LEGO Machines

November 6, 2025 by 6 Comments

Over the decades we have seen a lot of methods for powering LEGO-based contraptions, ranging from LEGO Technic pneumatics to electric motors, but what about steam power? We have all seen those cute little model steam engines that can definitely put out some power. Sure, you can just drop those in like a kind of confused internal combustion engine, or you can try to make a steam engine that actually tries to be directly compatible with LEGO.

While exploring this topic, [Jamie’s Brick Jams] on YouTube found that the primary concern here is simply the very hot steam produced by the boiler. While not a surprise to anyone who has ever run a model steam engine, this poses a major challenge to the thermoplastics used by LEGO.

Obviously a boiler cannot be made out of plastic, but the steam turbine can. That said, material selection here is key, as the hot, wet steam produced by the boiler demolishes PLA parts and ruined the original and very unsafe copper boiler in the process. Ultimately a LEGO Technic-compatible steam turbine was printed in high temperature resistant PAHT-CF and PC filament, which enables a steam-powered LEGO walker to come to life, albeit with a distinct lack of power.

Model steam engine enthusiasts are of course quick to point out that you should try to create dry steam through superheating, definitely add a safety valve and so on, all of which should make for an even more powerful and safe LEGO steam engine. For a rundown of how steam engines work, [Lawrie] did an excellent video on the basics a while back, as well as a video playlist full of demonstrations of both classical Mamod model engines and questionable modern takes.

Suffice it to say that although model steam engines look like toys, they involve fire, hot steam and other fascinating ways to melt things, light them on fire and cause painful injuries, so definitely follow a safety briefing before attempting any of it at home.

Continue reading “Making Steam-Powered LEGO Machines”

A drone is shown hovering in the sky, with two bright lights shining from its underside.

2025 Component Abuse Challenge: Overdriven LEDs Outshine The Sun

November 6, 2025 by 10 Comments

Tagging wildlife is never straightforward in the best of times, but it becomes a great deal more complicated when you’re trying to track flying insects. Instead of trying to use a sensor package, [DeepSOIC] attached tiny, light retroreflectors to bees and hornets, then used a pulsed infrared light mounted on a drone to illuminate them. Two infrared cameras on the drone track the bright dot that indicates the insect, letting the drone follow it. To get a spot bright enough to track in full sunlight, though, [DeepSOIC] had to drive some infrared LEDs well above their rated tolerances.

The LEDs manage to survive because they only fire in 15-µs pulses at 100 Hz, in synchrony with the frame rate of the cameras, rather like some welding cameras. The driver circuit is very simple, just a MOSFET switch driven by an external pulse source, a capacitor to steady the supply voltage, and a current-limiting resistor doing so little limiting that it could probably be removed. LEDs can indeed survive high-current pulses, so this might not really seem like component abuse, but the 5-6 amps used here are well beyond the rated pulse current of 3 amps for the original SFH4715AS LEDs. After proving the concept, [DeepSOIC] switched to 940 nm LEDs, which provide more contrast because the atmosphere absorbs more sunlight around this wavelength. These new LEDs were rated for 5A, so they weren’t being driven so far out of spec, but in tests they did survive current up to 10A.

We’ve seen a similar principle used to drive laser diodes in very high-power pulses a few times before. For an opposite approach to putting every last bit of current through an LED, check out this low-power safety light.

Continue reading “2025 Component Abuse Challenge: Overdriven LEDs Outshine The Sun”

Share Your Projects: Imperfectionism

November 6, 2025 by 30 Comments

Everyone has a standard for publishing projects, and they can get pretty controversial. We see a lot of people complain about hacks embedded in YouTube videos, social media threads, Discord servers, Facebook posts, IRC channels, different degrees of open-sourcing, licenses, searchability, and monetization. I personally have my own share of frustrations with a number of these factors.

It’s common to believe that hacking as a culture doesn’t thrive until a certain set of conditions is met, and everyone has their own set of conditions in mind. My own dealbreaker, as you might’ve seen, is open-sourcing of code and hardware alike – I think that’s a sufficiently large barrier for hacking being repeatable, and repeatability is a big part of how hacking culture spreads.

This kind of belief is often self-limiting. Many people believe that their code or PCB source file is not a good contribution to hacking culture unless it meets a certain cleanliness or completeness standard. This is understandable, and I do that, too.

Today, I’d like to argue against my own view, and show how imperfect publishing helps build hacking culture despite its imperfections. Let’s talk about open-source in context of 3D printing.

Continue reading “Share Your Projects: Imperfectionism”

DIY Powerwall Blows Clouds, Competition Out Of The Water

November 6, 2025 by 26 Comments

Economists have this idea that we live in an efficient market, but it’s hard to fathom that when disposable vapes are equipped with rechargeable lithium cells. Still, just as market economists point out that if you leave a dollar on the sidewalk someone will pick it up, if you leave dollars worth of lithium batteries on the sidewalk, [Chris Doel] will pick them up and build a DIY home battery bank that we really hope won’t burn down his shop.

Testing salvaged batteries.

The Powerwall-like arrangement uses 500 batteries salvaged from disposable vapes. His personal quality control measure  while pulling the cells from the vapes was to skip any that had been discharged past 3 V. On the other hand, we’d be conservative too if we had to live with this thing, solid brick construction or not.

That quality control was accomplished by a clever hack in and of itself: he built a device to blow through the found vapes and see if they lit up. (That starts at 3:20 in the vid.) No light? Not enough voltage. Easy. Even if you’re not building a hoe powerbank, you might take note of that hack if you’re interested in harvesting other people’s deathsticks for lithium cells. The secret ingredient was the pump from a CPAP machine. Actually, it was the only ingredient.)

In another nod to safety, he fuses every battery and the links between the 3D printed OSHA unapproved packs. The juxtoposition between janky build and careful design nods makes this hack delightful, and we really hope [Chris] doesn’t burn down his shed, because like the cut of his jib and hope to see more hacks from this lad. They likely won’t involve nicotine-soaked lithium, however, as the UK is finally banning disposable vapes.

In some ways, that’s a pity, since they’re apparently good for more than just batteries — you can host a website on some of these things. How’s that for market efficiency?

Continue reading “DIY Powerwall Blows Clouds, Competition Out Of The Water”