A Mobius keyboard surrounded by the parts to make a Mobius keyboard.

Mobius Keyboard Wastes Little Space

What is with all the wasted space on keyboards? There’s a whole back side just sitting there doing nothing. But how can you use the back at the same time as the front?

How to properly wire the boards together.
All the board sandwiches must be wired together like this, natch.

Just when we think Google Japan can’t possibly produce another weird, amazing keyboard that actually works and comes with full documentation, they go and outdo themselves with this ortholinear Mobius thing that wastes (almost) no space. (Japanese, translated) Be sure to check out the video after the break where hilarity ensues.

This crazy thing is made up of 26 modules, each with 8 key switches, four on a side. Do the math — that’s a total of 208 keys! More than enough to stretch out around the table and do some group programming without rubbing elbows. All the switches are hot-swappable, and there’s even RGB backlighting. The controller here is the STM32F042F4P6.

So what are all the extra keys for? Well, the keyboard is half in Japanese and half QWERTY, and has a set of emoji keys as well for the full programming experience. You can also make a paper version if you want to test out the topology.

Be sure to check out the documentation, because it’s pretty interesting how this keyboard is put together. And no, we’re not sure how to set it down and use it without accidental key presses. Suppose that’s part of the charm?

Have you ever wondered what happened to all the Japanese computers of yore? We did.

Continue reading “Mobius Keyboard Wastes Little Space”

Supercon Add-On Add-Ons in production.

2024 SAO Contest: We’ve Got SAOs For Your SAOs

So, we heard you like SAOs. How about some SAOs for your SAO? That’s exactly what’s going on here with [davedarko]’s SAOAO — introducing the Supercon Add-On Add-On standard, which is inspired by another minibadge standard by [lukejenkins]. At most, an SAOAO is 19×19 mm and features a 1.27 mm 3-pin header. As [davedarko] says, no pressure to do I²C, just bring the vibes.

All SAOAOs use the Yo Dawg SAO baseplate, which has room for three SAOAOs. Because six pins is often too many to make a few LEDs light up, the SAOAO standard uses a mere three pins. Not only are SAOAOs easier to route, the pins can’t even be mirrored accidentally because VCC is in the middle, and both outside pins are grounds.

Want to get your hands on some of these bad boys? [davedarko] is bringing 100 Yo Dawg SAO baseplates and 200 SAOAOs to Supercon. But if you want to make your own, you are more than welcome to do so.

Java Ring: One Wearable To Rule All Authentications

Today, you likely often authenticate or pay for things with a tap, either using a chip in your card, or with your phone, or maybe even with your watch or a Yubikey. Now, imagine doing all these things way back in 1998 with a single wearable device that you could shower or swim with. Sound crazy?

These types of transactions and authentications were more than possible then. In fact, the Java ring and its iButton brethren were poised to take over all kinds of informational handshakes, from unlocking doors and computers to paying for things, sharing medical records, making coffee according to preference, and much more. So, what happened?

Continue reading “Java Ring: One Wearable To Rule All Authentications”

A render of an SAO that resembles a Speak 'n Spell.

2024 SAO Contest: Speak, SAO

For some of us, the Speak ‘n Spell evokes pleasant memories of childhood as our first computer, along with one of those Merlin things. For others, it’s the ultimate circuit bending victim. For [Jeremy Geppert], they’re all-around good fun and he wanted to immortalize the device in a Simple Add-On (SAO).

This is [Jeremy]’s first board and SAO rolled into one, motivated by both Supercon and the SAO Contest. To start things off, [Jeremy] scaled down the design we all know and love to fit a 128×32 OLED display, and it looks great. The plan is to have the display, an amplified speaker, and a single button for input.

Before committing the board order, [Jeremy] had a brief freak-out about the pin distance as it relates to the window for the OLED display. Luckily, his brother suggested checking things first by printing a 1:1 scale image of the board outline, and laying that over the display.

This is the week it all comes together, as the tiny switches and (regular-size) connectors have arrived, and the boards are due quite soon. Go, [Jeremy], go!

Hackaday Podcast Episode 289: Tiny Games, Two Modern Modems, And The Next Big Thing

This week on the Podcast, Hackaday’s Elliot Williams and Kristina Panos joined forces to bring you the latest news, mystery sound, and of course, a big bunch of hacks from the previous week.

First up in the news: we’ve announced the 2024 Tiny Games Contest winners! We asked you to show us your best tiny game, whether that means tiny hardware, tiny code, or a tiny BOM, and you did so in spades. Congratulations to all the winners and Honorable Mentions, and thanks to DigiKey, Supplyframe, and all who entered!

We also announced the first round of Supercon speakers, so if you haven’t gotten your ticket yet, now’s the second best time.

A square image with the Supercon 8 Add-On Contest art featuring six SAOs hanging from lanyards.But wait, there’s more! We’re already a few weeks into the next contest, where we want you to show us your best Simple Supercon Add-On. We love to see the add-ons people make for the badge every year, so this time around we’re really embracing the standard. The best SAOs will get a production run and they’ll be in the swag bag at Hackaday Europe 2025.

Then it’s on to What’s That Sound, which completely stumped Kristina once again. Can you get it? Can you figure it out? Can you guess what’s making that sound? If you can, and your number comes up, you get a special Hackaday Podcast t-shirt.

Now it’s on to the hacks, beginning with non-planar ironing for smooth prints, and a really neat business card that also plays tiny games. Then we’ll discuss USB modems, cool casts for broken wrists, and archiving data on paper. Finally, we ask two big questions — where do you connect the shield, and what’s the Next Big Thing gonna be? Inquiring minds want to know.

Check out the links below if you want to follow along, and as always, tell us what you think about this episode in the comments!

Download in DRM-free MP3 and savor at your leisure.

Continue reading “Hackaday Podcast Episode 289: Tiny Games, Two Modern Modems, And The Next Big Thing”

A golden Jolly Wrencher SAO that works as an NFC tag for sharing contact info.

2024 SAO Contest: The Jolly Tagger Is A Golden Way To Share Info

For this contest, we’re asking you to come up with the best SAO you can think of that does something cool. What could be cooler than sharing your contact information all over Supercon and beyond with a tap of a Jolly Wrencher? It’s way better than just some sticker, and with the extra solder pad on the back, you can turn it into a pin once the con is over. Contact data can be uploaded over I²C.

An antenna coil PCB trace as generated by a KiCad plugin.
The KiCad-generated coil.

Here, [Phil Weasel] seeks to answer the question of whether one can make a working NFC tag with the M24LR04E IC, using a PCB trace as a coil. If there is an issue, it’s probably going to be that copper plane inside the antenna.

Designing the antenna itself proved fairly easy after checking the datasheet for the internal tuning capacitance (~27.5 pF), verifying the frequency of NFC (~13.56 MHz), and doing the math to find the inductance needed. After confirming everything in LTSpice, [Phil] used a PCB coil calculator and let the KiCad coil generator draw it out.

Did we mention the Jolly Wrencher is backlit by four side-mounted LEDs? Because what’s an SAO without a few blinkenlights?

A person examines a diamond with a loupe.

We’ll Take DIY Diamond Making For $200,000

They say you can buy anything on the Internet if you know the right places to go, and apparently if you’re in the mood to make diamonds, then Alibaba is the spot. You even have your choice of high-pressure, high-temperature (HPHT) machine for $200,000, or a chemical vapor deposition (CVD) version, which costs more than twice as much. Here’s a bit more about how each process works.

A sea of HPHT diamond-making machines.
A sea of HPHT machines. Image via Alibaba

Of course, you’ll need way more than just the machine and a power outlet. Additional resources are a must, and some expertise would go a long way. Even so, you end up with raw diamonds that need to be processed in order to become gems or industrial components.

For HPHT, you’d also need a bunch of good graphite, catalysts such as iron and cobalt, and precise control systems for temperature and pressure, none of which are included as a kit with the machine.

For CVD, you’d need methane and hydrogen gases, and precise control of microwaves or hot filaments. In either case, you’re not getting anywhere without diamond seed crystals.

Right now, the idea of Joe Hacker making diamonds in his garage seems about as far off as home 3D printing did in about 1985. But we got there, didn’t we? Hey, it’s a thought.

Main and thumbnail images via Unsplash