2026-04-21 19:00:10
APRs is an amateur radio protocol allowing the exchange of short packets of data. It’s commonly used to transmit a GPS position, though it can find other applications. The Flipper Zero RF hacker’s multi tool normally needs to be hooked up to an external transmitter to do APRS, but [Richard YO3GND] has made his Flipper do the job without any external parts at all.
One of the the Flipper’s radios sits in the 435 MHz ISM band, meaning that the rest of the 70 cm amateur band is well within its reach. There only remains the subject of modulation, in which the Flipper’s FSK and APRS’s FM are similar on paper if not on a waterfall display. Some software hackery ensues, and the Flipper is an APRS station. Because of the FSK-as-FM modulation it won’t be decoded by everything, but you can’t argue with the bill of materials if you happen to own a Flipper. Check out the demo video below.
Meanwhile, should any readers with an amateur radio licence be interested, this certainly isn’t the first time we’ve brought you a minimalist APRS transceiver. Assuming that possession of a Flipper hasn’t got you into hot water, that is.
2026-04-21 16:00:03
Once a pioneer in videocards, S3’s legacy is today mostly found in details like texture compression as well as the strong presence of S3-branded videocards in the retro-computing world. There’s however a bit of a funny issue with some of these S3 cards in what is often called a ‘brightness bug’, but which as [Bits und Bolts] covers in a recent video was actually a hardware feature that we can once again blame composite video for.
This issue appears with AGP cards like the Trio 3D, Trio64 and ViRGE, where the brightness on the output signal is set too high, easily seen with the washed out look on boot, where especially on CRTs you’d expect to see the nice deep black background. Using an S3 Trio 3D 2X card that was saved from the e-waste pile this so-called Pedestal Bit responsible is investigated and tweaked to show what difference it makes.
At the core is adjusting the black level to make scanline changes easier to detect for TVs, which is no longer relevant for CRTs, LCDs, etc., while adjusting the brightness for one videocard in a system can cause issues elsewhere, such as when using said card alongside a 3dfx Voodoo II card or with inconsistent brightness levels inside 3D games.
Fortunately S3 provided in-depth datasheets on their chips, including how to address the responsible bit. After demonstrating the principle, the BIOS is then patched to set this Pedestal Bit to the value of 0 on boot, solving the issue once and for all.
2026-04-21 13:00:35
Cyberdecks are typically reminiscent of weird computers in futuristic sci-fi films, moreso than the computers of today. The cool thing about cyberdecks, though, is you get to build them however you like. [WillTechBuilds] has put together a deck of his own that diverges from cyberdeck norms and ends up closer to something you might have bought off the shelf at Best Buy.
For a start, the build eschews the typical Raspberry Pi or other single-board computer that normally lives at the heart of a cyberdeck. In its place is a motherboard harvested from a GMKTec NucBox G5. It runs the Intel N97 CPU. It’s an x86 processor that’s roughly equivalent in power to an i5 from 10 years ago, but it only sips 12 watts. The compact motherboard is installed in a compact 3D-printed case along with a porbable USB-C battery pack, a small widescreen LCD, and a Lenovo ThinkPad trackpoint keyboard. This latter design choice, along with the x86 chip, is what gives this build so much of a laptop feel. There’s no weird Linux desktop, green-glowing terminal, or chunky mechanical keyboard here, let alone any GPIO pins. Definitely an oddball entry to the cyberdeck world, but valid nonetheless.
We’ve featured cyberdecks built out of everything from CRT TVs to event badges. As always, we’d love to see your latest innovative creation on the tipsline. Video after the break.
[Thanks to Heath Kit for the tip!]
2026-04-21 10:00:34
Having molten aluminium interact with atmospheric water forms a source of hydrogen which can be rather problematic if you’re trying to cast aluminium parts. As the molten metal cools down, the dissolved hydrogen is forced out, creating bubbles and other flaws that make aluminium foundries rather upset. While you can inject inert gases to solve the problem, you can also lean into this issue to make some rather fascinating aluminium crystals and geodes, as [Electron Impressions] recently did.
The key here is to use a eutectic Al-Cu alloy at around 45% Cu by weight, as this alloy readily forms large crystals as it cools down. With hydrogen injected into the molten metal, this hydrogen forms large bubbles inside the cooling metal with crystals clearly visible.
A way to create proper geodes involves very slow cooling and pouring off the still molten metal before the eutectic point is reached. As can be seen in this video, this creates a rather impressive looking geode after it’s been smashed open. This also gives a good clue as to how these geological features form in nature, although one does not typically observe Al-Cu alloy geodes in the wild.
2026-04-21 07:00:06
Throughout the centuries the art of lock-making and lock-picking have been trapped in a constant struggle, with basic lock designs being replaced by ever more complex ones that seek to thwart any lockpicking attempts, as well as less gentle approaches. When it comes to the very common pin-and-tumbler lock design, the main issue here is that the keyway also provides direct access to the lock’s mechanism. This led [Works By Design] to brainstorm a lock design in which the keyway is hidden.
The ingenious part here is that because the actual key is rotated away after insertion, there is no clear path to the pins. This did require some creative thinking to have a somewhat traditional style key as well as a way to turn the internal mechanism so that the key would be pressed against the pins. Here inspiration was drawn from the switchable magnet mechanism as seen with e.g. magnetic bases. This ensures the key and key handle can be detached and attached quite firmly.
After many 3D printed prototypes, a metal version was CNCed and subjected to some early testing by a locksmith, who even with having seen the CAD model of the lock was stumped. With this initial result and some user feedback in the bag, it was time for large-scale testing with more lockpick enthusiasts, as there are many more ways to open a lock beyond pushing pins. That said, a mechanism was also added to the lock to prevent bumping attacks.
The next testers were found in the Lock Pickers United community, one of whom raised the issue of an impressioning attack. With a couple of test locks on their way to said lockpicking enthusiasts it’ll be exciting to see whether this new lock design will set the standard for future locks or not.
2026-04-21 04:00:06
Perhaps at this point, getting NetBSD running on an obscure piece of hardware is a dog-bites-man story, and not worth reporting– their motto, after all, is “Of course it runs NetBSD”. So, the fact that [RetroComputingRanch] has got NetBSD running on a vintage Chyron Maxine broadcast computer is perhaps remarkable only for the fact that few people have even heard of Chyron before.
He’s already done a series of videos in which they explore this odd, old computer, which is powered by a Motorola 68040 on a VME bus and was once used to generate digital overlays– text and the like– on broadcast TV. NetBSD does have a port for the Motorolla VME SBCs, so he was able to vibe it onto the specific vme168 board that the Chyron is based on. It happens off screen, but apparently it was AI agent work that went into condensing the documentation for this machine as well as getting the NetBSD port set up. That’s a bit ironic, since NetBSD would never allow that in its commits.
Again, the Chyron Maxine was never intended to be a general-purpose-computer, and certainly never intended to run UNIX– it was meant to overlay text onto TV signals. With 4 MB of RAM, NetBSD leaves very little free once booted in single-user mode, but he realized that with a few extra chips the proprietary RAM board could become an 8 MB module. It seems like a pittance nowadays, but anyone who’s played with classic UNIX knows you can do a lot in 8 MB– even if only about 3MB is ‘free’ according to TOP.
There’s work still to be done– right now, it boots, but he wants to use NetBSD to really own this machine, so that’ll mean getting the vintage video hardware set up. Last time we saw a NetBSD user, they were doing game dev on a G4 Macbook, but nothing will ever match the legendary NetBSD toaster– not even toaster-shaped callbacks.
