A white handheld with a centered screen and Xbox-style controllers flanking an 8" screen. Speaker grilles are visible below the controllers in the face of the device.

Beth Deck Is A Framework-Powered Gaming Handheld

DIY gaming handhelds have long been the purview of the advanced hacker, with custom enclosures and fiddly soldering making it a project not for the faint of heart. [Beth Le] now brings us a custom handheld for the beginner that can be assembled in 15 minutes and doesn’t require any soldering.

These

Three 3D printed panels sit on a black surface. The white back has cooling holes in it (top), a green center plate holds a Framework laptop battery (middle), and the front frame holds the speakers, controllers, and screen (bottom)

claims might seem suspicious at first, but the fact that the build is powered by a Framework mainboard makes the dream seem attainable. Using an 8″ touchscreen and a rehoused mobile device controller, the 3D printed enclosure turns the PCB and battery into an interesting alternative to a Steam Deck.

[Beth] recommends waiting for the forthcoming revision 2 to make your own as she is working on refining the model. She also suggests printing in PC or PETG since PLA is too brittle and ABS warping can be an issue for tolerances with the pogo pins. In any case, this is definitely a project to keep your eye on if you enjoy gaming on the go.

As you know, we love Framework around here and the Cambrian Explosion of high-powered custom builds it’s enabled. This isn’t the first time we’ve seen a Framework-Powered handheld either. If you’re looking for a different form factor, we’ve also seen portable all-in-ones, keyboard PCs, and slabtops too.

Custom built Playstation handheld

The Phantom PSP: Crafting The Handheld Sony Never Sold

In the world of retro gaming, some legends never die – especially the ‘phantom’ PSP, Sony’s mythical handheld that never saw the light of day. While that elusive device remains a dream, hacker and gaming wizard [Kyle Brinkerhoff] built his own – and Macho Nacho made a video about it. His creation, which also goes by the name ‘Playstation Zero’, isn’t just another handheld emulator; it’s a powerful, custom-built system that revives the classics and plays them on a portable device that feels like the future.

Driven by a hunger for the ultimate gaming experience, [Kyle] set out to blend modern tech with retro gaming magic. He started with the Raspberry Pi, loading it up with emulation software for all the iconic systems—from NES and SNES to the Sega Genesis and Game Boy. But [Kyle] didn’t just slap on an off-the-shelf emulator; he dived into the code himself, optimizing and tweaking for lightning-fast responsiveness, so each game plays like it’s running on the original hardware. That’s hacking in true form: pushing the limits of software and hardware until they work exactly the way you want them to. Best of all: he published it all open source for others to use.

In the spirit of the Geneboy—a handheld Sega Genesis built by [Downing] and featured on Hackaday back in 2012—[Kyle]’s device pairs handheld emulation with the consoles all nineties kids wanted for Christmas. To capture the tactile thrill of vintage gaming, [Kyle] went a step further by designing and 3D-printing a custom controller layout that mimics the feel of the original systems. If watching someone neatly soldering a pcb sounds relaxing to you, don’t skip the middle part of his video. Although this little beast is packed with all bells and whistles you’d expect to see on a Raspberry Pi, it does lack one serious thing: battery life. But, [Kyle] is open about that, and hopes to improve on that in a future version.

If you want to see the full build, check out the video below. Or, immediately dive into [Kyle]’s Github, order the cute Takara shell, and get started!

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Arduboy Cassette Award Explores New Features

When [Press Play on Tape] entered their game Prince of Arabia into the Arduboy FX Game Jam, we bet they had no idea that they’d be taking home a prize quite like this — designed by Arduboy creator [Kevin Bates], this gorgeous new variant of the handheld system brings some exciting new capabilities to the platform. Plus, it looks awesome.

The system, which is made up of a stacked pair of PCBs, has been designed to resemble an audio cassette. Thanks to the full-color silkscreen service offered by PCBway, it certainly looks the part. But it’s also a fully functional Arduboy, which means it has access to all the games already written for the 8-bit system.

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MikroPhone – Open, Secure, Simple Smartphone

Modern smartphones try and provide a number of useful features to their users, and yet, they’re not exactly designed with human needs in mind. A store-bought smartphone will force a number of paradigms and features onto you no matter whether you want them, and, to top it off, it will encroach on your privacy and sell your data. It’s why self-built and hacker-friendly smartphone projects keep popping up, and the MikroPhone project fills a new niche for sure, with its LTE connectivity making it a promising option for all hackers frustrated with the utter state of smartphones today.

MikroPhone is open-source in every single aspect possible, and it’s designed to be privacy-friendly and easy to understand. At its core is a SiFive Freedom E310, a powerful RISC-V microcontroller – allowing for a feature phone-like OS that is easy to audit and hard to get bogged down by. You’re not limited to a feature phone OS, however – on the PCB, you will find a slot for an NXP i.MX8M-based module that can run a Linux-based mobile OS of your choice. MikroPhone’s display and touchscreen are shared between the Linux module and the onboard MCU, a trick that reminds us of the MCH2022 badge – you get as much “smartphone” as you currently need, no more, no less.

The cool features at MikroPhone’s core don’t end here. The MikroPhone has support for end-to-end encrypted communications, kept to its feature-phone layer, making for a high bar of privacy protection – even when the higher-power module might run an OS that you don’t necessarily fully trust. Currently, MikroPhone is a development platform, resembling the PinePhone’s Project Don’t Be Evil board back when PinePhone was just starting out, and just like with PinePhone, it wouldn’t be hard to minify this platform into a pocket-friendly form-factor, either. The PinePhone has famously become a decent smartphone replacement option in the hacker world, even helping kick off a few mobile OS projects and resulting in a trove of hacks to grace our pages.

ROG Ally Community Rebuilds The Proprietary Asus EGPU

As far as impressive hacks go, this one is more than enough for your daily quota. You might remember the ROG Ally, a Steam Deck-like x86 gaming console that’s graced our pages a couple lf times. Now, this is a big one – from the ROG Ally community, we get a fully open-source eGPU adapter for the ROG Ally, built by reverse-engineering the proprietary and overpriced eGPU sold by Asus.

We’ve seen this journey unfold over a year’s time, and the result is glorious – two different PCBs, one of them an upgraded drop-in replacement board for the original eGPU, and another designed to fit a common eGPU form-factor adapter. The connector on the ROG Ally is semi-proprietary, but its cable could be obtained as a repair part. From there, it was a matter of scrupulous pinout reverse-engineering, logic analyzer protocol captures, ACPI and BIOS decompiling, multiple PCB revisions and months of work – what we got is a masterpiece of community effort.

Do you want to learn how the reverse-engineering process has unfolded? Check out the Diary.md – it’s certainly got something for you to learn, especially if you plan to walk a similar path; then, make sure to read up all the other resources on the GitHub, too! This achievement follows a trend from the ROG Ally community, with us having featured dual-screen mods and battery replacements before – if it continues the same way, who knows, maybe next time we will see a BGA replacement or laser fault injection.

CL-32: The Minimum Possible For A Useful Handheld Computer

For almost as long as there have been microcomputers, there have been attempts with varying success to make tiny handheld microcomputers. Sometimes these have been very good, and other times they’ve missed the mark in some way. Latest to find its way to us is the CL-32 from [Moosepr], it’s a handheld computer with an ESP32 as brains, an electronic paper display, and a QWERTY keyboard in its smart printed case.

The hardware is relatively standard, save for the keyboard which is a dome-switch design in which the membrane carrying the domes is hand-made. We like this, and don’t think we’ve seen anyone else doing that. Expansion is taken care of by a novel socket arrangement in which boards nestle in a recess in the surface. Some experimentation was required as always to drive the display, but the result is a functional computer.

Sadly there’s little detail in terms of what the software will be, and no hardware files as yet. But what we can see is promising enough to make this one to watch, so we’ll look forward to what they come up with. If an ESP32 OS is a problem, there’s always badge.team, who have been continuously improving theirs since 2017.

The UMPC powered up, case-less showing the black PCB, with the display standing upwards and showing a blue colour scheme desktop with a CLI terminal open. To the right of it is one of the UMPCs that served as an inspiration for this project.

Bringing The UMPCs Back With A Pi Zero

Miss PDAs and UMPCs? You wouldn’t be the only one, and it’s a joy to see someone take the future into their own hands. [Icepat]’s dream is reviving UMPCs as a concept, and he’s bringing forth a pretty convincing hardware-backed argument in form of the Pocket Z project. For the hardware design, he’s hired two engineers, [Adam Nowak] and [Marcin Turek], and the 7-inch Pocket Z7 version is coming up quite nicely!

The Hackaday.io project shows an impressive gallery of inspiration devices front and center, and with these in mind, the first version of the 7-inch UMPC sets the bar high. With a 1024×600 parallel RGB (DPI) touchscreen display, an ATMega32U4-controlled keyboard, battery-ready power circuitry, and a socketed Pi Zero for brains, this device shows a promising future for the project, and we can’t wait to see how it progresses.

While it’s not a finished project just yet, this effort brings enough inspiration all around, from past device highlights to technical choices, and it’s worth visiting it just for the sentiment alone. Looking at our own posts, UMPCs are indeed resurfacing, after a decade-long hiatus – here’s a Sidekick-like UMPC with a Raspberry Pi, that even got an impressive upgrade a year later! As for PDAs, the Sharp memory LCD and Blackberry keyboard combination has birthed a good few projects recently, and, who can forget about the last decade’s introductions to the scene.