Fiber Laser Gives DIY PCBs A Professional Finish

April 7, 2025 by 12 Comments

While low-cost professional PCB fabrication has largely supplanted making circuit boards at home, there’s still something to be said for being able to go from design to prototype in an afternoon. Luckily we aren’t limited to the old toner transfer trick for DIY boards these days, as CNC routers and powerful lasers can be used to etch boards quickly and accurately.

But there’s still a problem — those methods leave you with a board that has exposed traces. That might work in a pinch for a one-off, but such boards are prone to shorts, and frankly just don’t look very good. Which is why [Mikey Sklar] has been experimenting with applying both a soldermask and silkscreen to his homemade boards.

The process he describes starts after the board has already been etched. First he rolls on the soldermask, and then sandwiches the board between layers of transparency film and clear acrylic before curing it under a UV light. After two coats of the soldermask, the board goes into a fiber laser and the silkscreen and mask layers are loaded into the software and the machine is set to a relatively low power (here, 40%). The trick is that the mask layer is set to run four times versus the single run of the silkscreen, which ensures that the copper is fully exposed.

Since the board doesn’t need to be moved between operations, you don’t have to worry about the registration being off. The end result really does look quite nice, with the silkscreen especially popping visually a lot more than we would have assumed.

We’ve previously covered how [Mikey] uses his CNC router and fiber laser to cut out and etch the boards, so this latest installment brings the whole thing full circle. The equipment you’ll need to follow along at home isn’t cheap, but we can’t argue with the final results.

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Which Browser Should I Use In 2025?

April 7, 2025 by 84 Comments

Over the history of the Web, we have seen several major shifts in browsing software. If you’re old enough to have used NCSA Mosaic or any of the other early browsers, you probably welcomed the arrival of Netscape Navigator, and rued its decline in the face of Internet Explorer. As Mozilla and then Firefox rose from Netscape’s corpse the domination by Microsoft seemed inevitable, but then along came Safari and then Chrome.

For a glorious while there was genuine competition between browser heavyweights, but over the last decade we’ve arrived at a point where Chrome and its associated Google domination is the only game in town. Other players are small, and the people behind Firefox seem hell-bent on fleeing to the Dark Side, so where should we turn? Is there a privacy-centric open source browser that follows web standards and doesn’t come with any unfortunate baggage in the room? It’s time to find out. Continue reading “Which Browser Should I Use In 2025?”

Why USB-C Splitters Can Cause Magic Smoke Release

April 7, 2025 by 40 Comments

Using USB for powering devices is wonderful, as it frees us from a tangle of incompatible barrel & TRS connectors, not to mention a veritable gaggle of proprietary power connectors. The unfortunate side-effect of this is that the obvious thing to do with power connectors is to introduce splitters, which can backfire horribly, especially since USB-C and USB Power Delivery (USB-PD) were introduced. The [Quiescent Current] channel on YouTube recently went over the ways in which these handy gadgets can literally turn your USB-powered devices into a smoldering pile of ashes.

Much like Qualcomm’s Quick Charge protocols, USB-PD negotiates higher voltages with the power supply, after which this same voltage will be provided to any device that’s tapped into the power supply lines of the USB connector. Since USB-C has now also taken over duties like analog audio jacks, this has increased the demand for splitters, but these introduce many risks. Unless you know how these splitters are wired inside, your spiffy smartphone may happily negotiate 20V that will subsequently fry a USB-powered speaker that was charging off the same splitter.

In the video only a resistor and LED were sacrificed to make the point, but in a real life scenario the damage probably would be significantly more expensive.

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Tracking The ISS Made Easy

April 7, 2025 by 3 Comments

If you made something blink, and now it’s time for you to make something move, something like a point-to-a-satellite tracker is a great idea. [Farid Rener] made this moving arrow that always points at the ISS, and documented it nicely to boot.

And there’s a little bit of everything here, from orbital mechanics and fetching the two-line elements (TLE) from the web, to writing the code to translate that into the tabletop machine’s coordinate system. It looks like [Farid] hadn’t done much 3D CAD before, so he got a chance to stretch those muscles too. Finally, it served as an introduction to resource-constrained programming: “This was the first time I’ve had to think about the size of a compiled binary – the most frustrating part was figuring out that using a C++ stringstream was adding too much code to my binary.”

[Farid] is learning a lot here, and you might too. For instance, using pencil lead (graphite) as a lubricant on sliding 3D-printed parts is new to us, but makes sense. We’ll have to try that out.

And while this is a simple desktop tracker, with a lot more mechanical design, the same basics could be put to real use for pointing a receiver dish. Of course, who says you need fancy motors and computers to point a satellite dish anyway? If you work on your arm muscles a bit, you could become the satellite pointer.

A Tale Of Nuclear Shenanigans From Down Under

April 6, 2025 by 47 Comments

It’s likely that among the readers of this article there will be many who collect something. Whether it’s rare early LEDs or first-year-of-manufacture microprocessors, you’ll scour the internet to find them, and eagerly await mystery packages from the other side of the world.

There’s a tale emerging from Australia featuring just such a collector, whose collection now has him facing a jail sentence for importing plutonium. The story however is not so clear-cut, featuring a media frenzy and over-reaction from the authorities worthy of Gatwick Airport. [Explosions&Fire] has a rather long video unpacking the events, which we’ve placed below the break.

Emmanuel Lidden is an element collector, someone who tries to assemble an entire Periodic Table in their collection. He ordered a range of elements from an American element collectors’ supply website, including samples of plutonium and thorium. He seems to have been unaware he was committing any crime, with the microscopic samples available from legitimate websites with no warnings attached. The case becomes murkier as the Australian authorities flagged the thorium sample and instructed the courier not to deliver it, which they did anyway. Then a raid of the type you’d expect for the terrorists who stole the plutonium in Back To The Future was launched, along with that Gatwick-esque media frenzy.

We’re inclined to agree that the penalty likely to be meted out to him for buying a sliver of a Soviet smoke detector embedded in a Lucite cube seems overly steep, but at the same time his obvious naivety over dealing in radioactive materials marks him as perhaps more than a little foolhardy. It’s something over which to ponder though, have we managed to amass anything illegal disguised as outdated devices? Have you? Perhaps it’s something to discuss in the comments.

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Pluto’s Not A Planet, But It Is A Spectrum Analyzer

April 6, 2025 by 8 Comments

The RTL-SDR dongles get most of the love from people interested in software-defined radio, but the Pluto is also a great option, too. [FromConceptToCircuit] shares code to turn one of these radios into a spectrum analyzer that sweeps up to 6 GHz and down to 100 MHz. You can see a video of how it works below.

While it may seem that 100 MHz is a bit limiting, there’s plenty of activity in that range, including WiFi, Bluetooth, radio systems, both commercial and amateur, and even cell phones.

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Command And Conquer Ported To The Pi Pico 2

April 6, 2025 by 9 Comments

A couple of months back, Electronic Arts did something uncharacteristically benevolent and released several of the old Command and Conquer games under the GPLv3. Logically, we knew that opened the doors up to the games being ported to new operating systems and architectures, but we admit that it was still a little surprising to see Command and Conquer: Red Alert running on the Raspberry Pi Pico 2.

[Charlie Birks] documented the process of getting the 1996 game up and running on the microcontroller in a series of Mastodon posts spanning a few days in March. Seeing the incremental progress made each day makes for interesting reading, as he moves from the game just barely starting up to being able to complete missions and eventually even get multiplayer going between two Picos.

As [Charlie] clarifies, he’s technically using the Pimoroni Pico Plus 2 W, which takes the RP2350B from the official Pico 2, adds 8 MB of PSRAM, and bumps the onboard flash to 16 MB. The upgraded specs and an SD card are required to get the game running, as content that would have originally been held in RAM on the computer must instead be pulled from flash.

For an even more streamlined experience, he eventually slaps the Pico Plus 2 W into the Pimoroni Pico VGA Demo Base — which provided not only an integrated SD card slot, but (as the name implies) VGA output.

It’s still early days, but [Charlie] has been pushing all of his code changes into his fork of Red Alert on GitHub for anyone who wants to play along at home. If you get his fork compiled and running on your own Pico, we’d love to hear about it in the comments.