All-Screen Keyboard Has Flexible Layouts

December 15, 2025 by Lewin Day 29 Comments

Most keyboards are factory-set for a specific layout, and most users never change from the standard layout for their home locale. As a multilingual person, [Inkbox] wanted a more flexible keyboard. In particular, one with the ability to change its layout both visually and logically, on the fly. Thus was born the all-screen keyboard, which can swap layouts on demand. Have a look at the video below to see the board in action.

The concept is simple enough: It’s a keyboard with transparent keys and a screen underneath. The screen displays the labels for the keys, while the transparent plastic keys provide the physical haptic interface for the typist. The device uses a Raspberry Pi to drive the screen. [Inkbox] then designed a plastic frame and transparent keys, which are fitted with magnets, which in turn are read by Hall effect sensors under the display. This eliminates the need for traditional key switches, which would block light from the screen below.

Unfortunately for [Inkbox], the prototype was very expensive (about $1,400 USD) and not particularly functional as a keyboard. However, a major redesign tackled some of these issues. Version two had a smaller screen with a different aspect ratio. It also jettisoned the Hall effect sensors and uses plastic keys capacitively operating a traditional touch screen. Some design files for the keyboard are available on Github for the curious.

An all-screen keyboard is very cool, if very complicated to implement. There are other ways to change your layout that aren’t quite as fancy, of course. You can always just make custom keycaps and remap layouts on a regular mechanical keyboard if desired. Still, you have to admire the work that went into making this thing a reality.

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Building A Ten-Hundred Key Computer Word-Giving Thing

March 14, 2025 by Dan Maloney 18 Comments

From the styling of this article’s title, some might assume that the Hackaday editors are asleep at the switch this fine day. While that might be true — it’s not our turn to watch them — others will recognize this tortured phrasing as one way to use the 1,000 most commonly used words in the English language to describe a difficult technical project, such as [Attoparsec]’s enormous and enormously impractical ten-hundred word keyboard.

While the scale of this build is overwhelming enough, the fact that each key delivers a full word rather than a single character kind of throws the whole keyboard concept out the window. The 60×17 matrix supports the 1,000 most common English words along with 20 modifier keys, which allow a little bit of cheating on the 1-kiloword dictionary by letting you pluralize a word or turn it into an adjective or adverb. Added complexity comes from the practical limits of PCB fabrication, which forces the use of smaller (but still quite large) PCBs that are connected together. Luckily, [Attoparsec] was able to fit the whole thing on five identical PCBs, which were linked together with card-edge connectors.

The list of pain points on this six-month project is long, and the video below covers them all in detail. What really stood out to us, though, was the effort [Attoparsec] put into the keycaps. Rather than 3D printing his own, he used dye sublimation to label blank keycaps with the 1,000 words. That might sound simple, but he had to go through a lot of trial and error before getting a process that worked, and the results are quite nice. Another problem was keeping the key switches aligned while soldering, which was solved with a 3D printed jig. We also appreciate the custom case to keep this keyboard intact while traveling; we’re going to keep that build-your-own road case service in mind for future projects.

This mega-keyboard is a significant escalation from [Attoparsec]’s previous large keyboard project. The results are pretty ridiculous and impractical, but that’s just making us love it more. The abundance of tips and tricks for managing a physically expansive project are just icing on the cake.

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Wrap Your Keyboard With A Vacuum Former

July 14, 2024 by Jenny List 4 Comments

Coloured keycaps are a common customisation when it comes to making your input device special. If you are working with modern tech it’s easy, there are plenty of vendors who can sell you keycaps for any purpose. With retro tech it’s never so simple, if a keycap hasn’t been made for decades you’re out of luck. This doesn’t faze [Drygol] though, who has solved the coloured retro keycap in a unique and non-destructive way. Wrap them in vinyl film using a vacuum former.

Vacuum formers are an often-underrated tool in the hardware arsenal, but as this project shows, they can produce startlingly good results. Original keycaps are placed on a 3D-printed scaffold before the vinyl is formed over them, then they are carefully cut out and a triangular edge on both sides is folded underneath, The result is an Amiga with a striking orange keyboard, and for us the best bit is that the original key is safely preserved under the vinyl.

[Drygol]’s exceptional work in the retrocomputing sphere has delighted us many times on these pages. There are too many examples to link here, but one we particularly liked was this nearly-all-new Amiga 2000.

Printable Keycaps Keep The AlphaSmart NEO Kicking

May 14, 2024 by Tom Nardi 11 Comments

Today schools hand out Chromebooks like they’re candy, but in the early 1990s, the idea of giving each student a laptop was laughable unless your zip code happened to be 90210. That said, there was an obvious advantage to giving students electronic devices to write with, especially if the resulting text could be easily uploaded to the teacher’s computer for grading. Seeing an opportunity, a couple ex-Apple engineers created the AlphaSmart line of portable word processors.

The devices were popular enough in schools that they remained in production until 2013, and since then, they’ve gained a sort of cult following by writers who value their incredible battery life, quality keyboard, and distraction-free nature. But keeping these old machines running with limited spare parts can be difficult, so earlier this year a challenge had been put out by the community to develop 3D printable replacement keys for the AlphaSmart — a challenge which [Adam Kemp] and his son [Sam] have now answered.