A black plastic box is shown, with a green circuit board inside. The circuit board is wired to an RS-232 connector and an RJ-45 connector.

A High-Vacuum Controller For An Eventual Electron Microscope

June 2, 2026 by 7 Comments

[Chris Doble] has high ambitions: he’s making his own scanning-electron microscope, and as the first step he’s built a high-vacuum system. This required its own controller to manage the various electronics involved in the system, which he’s documented and open-sourced.

The vacuum system itself starts with a rotary-vane roughing pump, which can bring a chamber down from atmospheric pressure to about 10-3 millibar. This is still too high a pressure, so the second stage is a turbomolecular high-vacuum pump, which can operate from 18 millibar down to 10-7 millibar. To protect the turbomolecular pump in case the roughing pump suddenly stops, it includes an anti-suckback valve. Connected to these pumps is a pressure gauge which uses a pair of sensors to sense the entire pressure range. All this setup worked well, but the turbomolecular pump and the pressure sensor each used their own interfaces, while [Chris] wanted a single interface for the eventual microscope.

[Chris] therefore designed his own controller based on the Raspberry Pi Pico 2, with firmware written in Rust. The pressure gauge uses an RS-232 interface, which he connected to the Pico’s UART pins using an RS-232 level shifter, with a null modem to swap over the transmitting and receiving pins. The turbomolecular pump used an RS-485 interface, which required a converter circuit and some level-shifting resistors. A custom PCB and 3D-printed case hold the final circuit, which provides a host computer with a single USB interface. When [Chris] tested the controller, the vacuum chamber reached a pressure of 10-6 millibar, and was still slowly falling when he ended the test.

This isn’t the first vacuum chamber controller we’ve seen. Of course, this assumes that the pressure gauge already has a controller; if not, we’ve also covered one of those. To see the inspiration for [Chris]’s project, check out [Ben Krasnow]’s scanning-electron microscope.

Does Your Terminal Speak Morse? This One Does

June 2, 2026 by 6 Comments

There are a lot of single board computers on the market these days, so you can be forgiven if you missed the LuckFox Lyra. Its main claim to fame seems to be that it shares the Pi Pico’s 51 mm x 21 mm footprint while being powerful enough to run a full Linux system– or at least, it was. Now its claim to fame is as a device you can interact with no peripherals, accessing the terminal via Morse code. That’s thanks to [Gabriel Broussard Korr] and his Morstdin project, which should run on just about anything POSIX-compliant, by dint of a being a clever sh script at heart.

Of course, with most POSIX-compliant systems, you’ll need to alter the script to account for some kind of periferal to do the Morse I/O– not so on the LuckFox Lyra, which has a built-in LED and a single usable button. It actually has two buttons, but one of them is RESET and you can’t use that for anything but its intended purpose. The BOOT button, on the other hand, becomes user input after the system has started. One button, one LED? It’s almost like LuckFox designed this SBC for Morse! Admittedly we’d prefer an audible output, but adding a buzzer would detract from the purity of this implementation.

He’s had to extend the code, of course, since Samuel Morse did not expect all of the special characters you’re likely to encounter on the terminal. The resultant Programmer’s Morse, or PMorse is a straightforward extension, but [Gabriel] didn’t stop there: he’s also added a set of commands he describes as “vim-like” make using this headless device easier by doing things like deleting whole words or flash the line you’re working on so you can make sure you haven’t made any errors.

If that wasn’t enough, he’s also put an LLM on it. Because in the Year of Our Lord 2026, you apparently cannot escape the frakkin’ toasters by jumping your rag-tag fleet into the 128 MB of RAM on this tiny SBC. Still, his inclusion of Llamma.cpp does add one thing to the project: it can now claim to be the world’s smallest stand-alone chatbot. It’s also the only one that speaks Morse. That’s got to be worth some bragging rights.

[Gabriel] may have a thing for physically tiny Linux devices– his last project, which we featured, was about using Linux on old smartphones with Termux.

Thanks to [Gabriel] for the tip!

Header image credit Luckfox.

 

From Scrappy Pallet Wood To Fancy Tea Tray

June 2, 2026 by 16 Comments

Pallets are a wonderful way to package goods and move them around, but especially the wooden ones have a very finite lifespan. This means that many of them are discarded every day, even though there is still good wood on them. Even if it’s not the highest quality wood, you can still use it for some nice wooden items, like the tea tray that [GR Woodworking] recently put together.

The reclaimed wood is the typical fast-growing, soft type, with the suspicion of it being paulownia here. Of course, wooden pallets use a wide variety of wood varieties, so not all reclaimed wood is equally suitable for applications like this, and identifying the type can be a challenge in itself.

In the video it’s shown how the wood is planed to make it smooth and straight, before the joints are created and it is married to the poplar or aspen base plate. Of note is that absolutely no power tools or bulky things like router tables are used here, just basic hand tools that should make this kind of woodworking accessible to people even without that kitted-out woodworking shop.

After assembly it’s finished with Vararhana oil-based stain to give it a darker look and really bring out the grain. Naturally, since it’s a tea tray it has to be commissioned with a proper tea ceremony, which it passes with flying colors.

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The 2026 EMF Badge Arrives, With An Add-On. As Expected, It’s Familiar

June 2, 2026 by 6 Comments

Two years ago the EMF hacker camp in the UK released a new kind of event badge. The Tildagon was designed to be a recurring event badge, useful for the next EMF rather than destined to be e-waste. With the 2026 event coming up there’s a new Tildagon called the Spaceagon, and as you might expect it’s very familiar indeed.

Tildagon owners can update their badge with the Spaceagon front panel, while those without one can buy the new badge. It has a few minor updates from its predecessor, including better buttons, LEDs, and display mounting, and there’s a compass, a joystick, and touch sensitive areas.

The Tildagon introduced its own add-on format, the Hexpansion. This year there’s the first official Hexpansion, a keyboard, using the same rubber moulding we see on quite a few maker projects. We like the Hexpansion idea because it uses an edge connector rather than a set of pins on the device, but at the cost of more expensive badge parts.

If you’re going to EMF you should be able to order yourself a Spaceagon, or an upgrade kit if you already own a Tildagon. Meanwhile we covered the 2024 version back when it arrived, and surprisingly this isn’t the first keyboard add-on for it either.

Linux Fu: Taming Strace

June 2, 2026 by 9 Comments

While many operating systems seem to try to prevent you from peeking under the hood, Unix and Linux positively encourage it. One great tool that we’ve looked at before is strace. Using this tool, you can see details about every system call a program makes. As you might imagine, for any significant program, the output from strace can be huge.

While I’m not always a fan of GUIs, this is one of those cases where making the data easier to browse is a great idea. Enter strace-tui, a text-based GUI for strace from [Rodrigodd]. The program can parse output from strace or manage the strace execution itself, and either way, display the data in a useful way.

I started out looking at [janestreet’s] strace_ui, but the OCaml setup was throwing errors for me, so I just gave up. The strace-tui installs like many Rust programs, using cargo, and it went smoothly.

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STM32 Handheld Has OpenGL And All The Classics

June 2, 2026 by 20 Comments

We do sometimes go on about how absurdly powerful microcontrollers are these days, but this time it’s technically a microprocessor, not a microcontroller, at the heart of the build — specifically, an STM32MP2. Still, you know you’re living in the future when an STM32 of any sort can not only run [John Cronin]’s gk handheld game console, but provide 3D acceleration to boot.

Full disclosure: you’ve seen this handheld here before — sorta. That was version 3, which was an STM32-based handheld.  V3 used the much less powerful STM32H7S7L8, with a single Cortex-M7 clocked at 600 MHz and a 2D NeoChrom GPU. The STM32MP2, by contrast, has dual Cortex-A35 cores running 1.5 GHz and a bonus Cortex-M33. It’s running a custom OS called gkos, which is mostly POSIX-compliant and boasts nigh-instantaneous boot times.

As with the last version, you can run a bevy of emulators from the 8-bit to the 32-bit era, but the added power and OpenGL support mean this handheld also runs N64 games via a fork of mupen64. There are also emulators for ‘real’ computers, namely Atari ST and XL, and a little-known thing known as a “PC”. DOSBox gets the equivalent performance of a 50 MHz 486, which means you can run all the classics, including DOOM, though that will be more performant running the native-running port of sdl-DOOM.

You also get extra inputs to play with and a bigger screen compared to the last version. Oh, and WiFi. There are accelerometers for tilt control, and did we mention the screen’s touch input is supported? If it weren’t for the form-factor, we’d call this a capable little computer. The GK handheld looks like an awesome handheld console, check it out in the demo video below.

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Jenny’s Daily Drivers: Microsoft Windows 11

June 2, 2026 by 62 Comments

In our search for the unusual or interesting among the world of operating systems, it might seem unexpected that today’s choice for a Daily Driver is the latest version of Microsoft Windows. Aside from Hackaday perhaps having a larger than average percentage of viewers using Linux based operating systems and generally catering to open source enthusiasts, there’s hardly anything special about Windows, is there?

Oddly for me there is — because while it’s a common enough OS for the masses, the last time I had a Windows computer it ran XP. That venerable OS is a world away from today’s Windows 11, and thus as someone who’s exclusively sat in front of a GNOME desktop for much of the last two decades, it’s an entirely new operating system.

There’s no doubt that it will make a Daily Driver, because of course I’ll be able to do my work on it. Where the interest lies is in seeing what Windows has become. Is it still a useful general purpose operating system, or has it become the locked-down walled garden of crapware that its detractors warn you about? Time to dive in.

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