A “Full” Keyboard For $5*

Sure, we’ve all seen PCB business cards at this point, but what about giving away a full-blown keyboard at meetups and such? That’s just how cost-effective the idawgz32 keyboard is. How on Earth can it cost so little? [sporewoh] used the CH552 microcontroller, which comes in around a dollar and only needs a couple of capacitors to get it up and running. The firmware is FAK.

As [sporewoh] writes in this blog post about the keyboard, they did some analysis and realized that most of the cost of their previous tiny board came from the switches. In addition to switching up the switches, [sporewoh] performed a few tricks to get the cost down, like making the key spacing 9 mm x 9 mm so that the overall board is less than 100 mm x 100 mm (which triggers a deal at a certain board house).

Unfortunately, the switches turned out not to be so good. They had greater travel and required more actuation force than the ones [sporewoh] was used to with previous board. The switches were also scratchy, which was solved with a little Krytox. But ultimately, they are pretty unreliable, so the next revision will use Panasonic EVQP0N02Bs.

If this seems familiar, you may be recalling this $3 macro pad which uses the same chip, or maybe the fact that we’ve covered the CH552 in detail.

*Thanks to the current CAD to USD exchange rate.

Not A FrogPad But Close

While you might think one-handed keyboards are a niche item, if you have reduced function in one hand or you only have one hand, they are pretty important. [Kian] was getting ready for surgery that would put his left arm out of commission for a while, which spurred the construction of a one-handed keyboard inspired by FrogPad.

There was a time when creating a new keyboard would have been a significant task. These days, it is reasonably easy and [Kian] simply repurposed an existing kit for a split keyboard. Using just half the board was easy since it is made in two parts already.

There have been many attempts at building effective one-handed input devices over the years, and the circa 2002 FrogPad is one of the better devices. Like most one-handed keyboards, it uses layers. The top layer has the most common keystrokes to minimize the number of layer changes required to type common text.

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Altoids Tin Keyboard Is A Breath Of Fresh Air

Well, here’s a fresh idea! [flurpyflurples] is back from hiatus with the Mintboard, a 40% that fits inside of an Altoids tin. Who could ask for more than a rugged little Bluetooth keyboard with a built-in cover that fits in your pocket?

This build started with meticulously measuring the tin to figure out what kind of switches could be used. At first, this was going to be a 60% keyboard, but after a lot of design decisions and switch comparisons, [flurpyflurples] settled on a certain micro switch spaced at 7.3mm for a 40% layout. Then it was time to design a PCB.

Although [flurpyflurples] tends to use Arduino Pro Micros in their builds, they went with the Nice! Nano this time for the Bluetooth capabilities. This means that they had to program it with ZMK instead of QMK, but found that QMK knowledge transfers rather nicely.

Let’s talk about those lovely legends. The keycaps are 3D printed of course, and the legends were cut out on a Cricut machine. The best part is that sealant — [flurpyflurples] used a few drops of UV nail polish top coat and cured it with light.

We think this looks and sounds fantastic, and would really like to know how to get such clean cutouts. According to [flurpyflurples] and the end of the build/demo video you’ll find below the break, the action is a lot like a Blackberry keyboard.

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The ScottoKatana Keyboard Is Cutting-Edge

The lovely thing about a hobby like keyboard building is that the melting pot of designs manages to never turn into a nasty porridge. Rather, it remains a tasty chili that keeps getting more flavorful with time. It’s a simple recipe, really; someone becomes dissatisfied enough with their peripherals to do something about it, often trying various designs until they either settle on one, or come up with yet another awesome variant that suits their needs — and possibly someone else’s down the line.

The inimitable [Joe Scotto] has happened upon the katana layout, which has an inverse left-hand row stagger that lends symmetry to the design, and Scotto-ized it into a 33-key build that he says is the best-sounding one yet with lubed Gateron Milky Yellows.

The case and the keycaps are both 3D-printed, and as with all Scotto builds, it is beautifully hand-wired. This one uses an RP2040 Pro Micro, but an ATMega Pro Micro will work, too.

Everything is available on GitHub, and [Joe] promises a typing test soon, as well as a gasket version that foregoes the integrated plate.

Do you need a fast keyboard? Like, ridiculously fast? Then you should use an FPGA.

Via KBD and Make:

Nyan Keys: Because Your Keyboard Is Painfully Slow

You probably don’t notice keyboard latency when typing or doing mundane tasks, but if you start gaming, that’s also when you might start complaining. Every millisecond counts in that arena. Think your keyboard is fast? Think again. Because unfortunately, no matter what you’ve got in there, that key matrix is slowing you down. What you need is an FPGA-based keyboard with an overkill MCU. You need Nyan Keys.

[Portland.HODL] set out to make the lowest-latency mechanical keyboard possible that would accept any Cherry-compatible switches, and boy howdy, is this thing fast.

Coupled with the STM32F723VET6 MCU is USB 2.0 HS, which has an 8000Hz polling rate. At worst, key latency measures 30μS, which blows the 1mS average out of the water.

Because it uses a Lattice Semi iCE40HX 4k FPGA, each key switch can connect to its own I/O pin, which also eliminates the need for diodes.

It also means that each key switch can have its own “core” — an 8-bit timer that is always counting up to 255. The key can only change its state when the timer reads 255. This acts as a rather clever debounce mechanism.

If all that’s not enough, [Portland.HODL] built an operating system called NyanOS written in C to avoid any performance-reducing overhead. Oh, and it has an opt-in Bitcoin miner.

We’ve seen a lot of keyboards, the fast ones are fast because of the input side — they are chording keyboards that take combinations to type, rather than using one key (or so) per character. The Characorder is so fast that it was banned from competition.

Pico Makes A So-So Keyboard Neat-O

When someone gives you a crappy little toy keyboard, what can you do? Sadly plunk on the thing one note at a time? Well yes, but that’s not going to get you on Hackaday. Do what [Turi] did and give that thing a complete overhaul.

[Turi] threw away the original controller board, keeping only the keys, buttons, case, speaker, and a little bit of the original powder yellow enclosure. The Picophonica’s new brain is, you guessed it, a Raspberry Pi Pico. This enables [Turi] to use [Ryo Ishigaki]’s pico_synth_ex synthesizer and introduce MIDI out via USB-C.

The new engine does things that little keyboard could never have dreamed of originally, especially considering it wasn’t even polyphonic. Those fourteen white buttons now control things like sustain, cutoff, LFO rate, decay, and so on. Now it sounds great!

Be sure to check out the brief build video after the break. Excluding drums, the soundtrack was made entirely on the Picophonica.

Of course, Picos aren’t just good for musical keyboards. Use one to convert an old proprietary keyboard to PS/2, or create your own.

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We Like Big Keyboards And We Cannot Lie

So, let’s say you’re good at DOTA. Like, world-class good. How good do you think you’d be on a keyboard that’s 16 feet long, with a space bar the size of a person? Well, you’d need the rest of your team, that’s for sure.

Alienware have created the world’s largest mechanical keyboard and mouse, which are working, 14:1 scale representations of their AW420K keyboard and AW720M mouse. And they got Team Liquid to try it out.

While this may be a marketing ploy, it took quite a lot of work and weeks of 3D printing to faithfully reproduce those peripherals on that scale.

What’s really impressive are the custom key switches, which are described early on in the video after the break. They are nearly a foot wide with the keycap on, and they have an incredible four inches of travel.

Each of the 87 key switches is made with two snugly-fitting pieces of PVC, a thick rubber band, and of course, an actual, regular-size key switch to register the presses. Not satisfied with that, the team added a small piece of measuring tape to produce a nice clicky, tactile feedback. And, oh yeah, that space bar? The stabilizer is made from a 1″ copper pipe. Be sure to check it out in action after the break.

This just so happens to be the same size as the last keyboard we saw claiming to be the world’s largest, which was rejected from the Guinness Book because it’s not an exact replica of an existing keyboard. So, somebody call Guinness, we suppose.

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