As the digital photographic revolution took off, and everyone bought a shiny new film-less camera, there was a brief fad for photo printers. The idea was you’d have the same prints you’d always had from film, but the media for these printers would invariably cost a fortune so consumers moved on pretty quickly.
Now the pop up in second-hand stores and the like, which is how [Amen] acquired a Canon Selphy 740. It didn’t work, and on investigation it was found that a particularly tiny plastic gear had failed. Most people would have tossed the printer in the trash, but they instead opted to CNC-machine a new gear. It’s not everyday you tackle a job this small, so it makes for an interesting tale.
While the first instinct might be to reach reach for a CAD package, [Amen] instead wrote a script to create the raw GCode. The machining is done with a 0.2 mm bit ground to the desired profile. The result: a gear that gets the printer working again. It’s a dye-sublimation printer that leaves a negative image in the cartridge, allowing negative prints to be made with a bit of cartridge rewinding. And for those who might have ended up with a Selphy of their own, there’s a further post about using cheaper aftermarket cartridges.
It seems there will never be an end to the number of ways to show the time. The latest is the LumiClock from [UK4dshouse], and it uses the seldom-seen approach of a sheet of luminous paper excited by a strip of UV LEDs that pass over it guided by a lead screw.
At its heart is a micro:bit, which generates the time in dot-matrix digital form as the LEDs are moved across the sheet. It in turn has a real-time-clock module to keep it on time, and it drives a little DC motor via a robotics driver board. The appearance of the whole devices is similar to an X-Y plotter without the Y axis, as a 3D-printed carrier is moved by the lead screw and slides along a pair of stainless steel tubes. The result is an unusual and eye-catching timepiece, whose retro dot-matrix numerals fade away and are refreshed with the new time.
We’ve had a bit of a play ourselves with UV luminous materials, and we can confirm they make an interesting alternative to some other display ideas in dimmer environments. This isn’t the first such clock we’ve shown you.
After a four-year hiatus and a cancelled event, it was time earlier this month for British and European hackers to return to their field in Herefordshire. A special field, Eastnor Castle Deer Park, venue for the Electromagnetic Field 2022 hacker camp. I packed up an oversized rucksack and my folding bike, and set off to enjoy a few days in the company of my fellow geeks.
As the first of the large European hacker camps since 2019 there was both an excitement and a slight trepidation in finally hanging out with several thousand people, even if mostly outdoors. The UK has a good COVID vaccine uptake and the camp organisers requested that attendees test themselves before travelling to Eastnor, but after two years of precautions and the pandemic still being with us there’s still some risk to take into account. Happily they were able to strike a decent balance between precautions and event progress, and we were able to proceed with a fairly normal hacker camp.
Plenty Of Talks, But They’re Not Online Yet
Sadly the extensive programme of talks has yet to make it onto YouTube or media.ccc.de at the time of writing, so the section I’d normally devote to them may have to wait for another time. Thus this write-up is more about the social aspect than the action.
Eastnor Castle Deer Park lies in a secluded Herefordshire valley, and the entry is vla a small estate road that treats you to an unfolding vista as you approach, of the marquees and other structures nestled among the trees. The usual queue for a wristband and you’re in, with the minor inconvenience of a trek trough the site to wherever your village lies. This year I was with my hackerspace in the Milton Keynes Makerspace village, next to one of the estate roads at the side of the valley and clustered round a tent with the commendable purpose of distributing free cups of very high quality tea. My tent up, I was ready to tour the site, and renew some friendships after so long apart. Continue reading “Hacker Camps Post-Pandemic, Electromagnetic Field 2022”→
If you’re a clock aficionado and have ever visited Berlin, you’re probably familiar with the Berlin Clock on Budapester Straße: a minimalist design of yellow and orange lights that displays the time in a base-5 number system. This clock has been telling the time to the few that can read it since 1975, and is but one of several unusual clocks that can be found in the city.
Berlin resident [jjoeff] decided to make a miniature replica, appropriately called the Berlin Uhr Nano, in order to watch the unusual display at any time of day. Built around a Wemos D1 Mini, it connects to WiFi in order to synchronize its internal clock to an NTP time server. It then drives a custom PCB that holds 39 WS2812 LEDs to display the time in its proper format. Unlike the original though, it also includes a full counter to tell the number of seconds; the bigger clock just flashes a single lamp to show the seconds passing.
Wired and SCMP are reporting on interesting trivia from the realm of chip shortages. Apparently, some large conglomerate out there is buying new washing machines and scavenging the chips they can’t obtain otherwise. My imagination pictures skilled engineers in a production room, heavy-duty electric screwdrivers and desoldering toolkits on the floor next to them, and a half-torn-down washing machine about to reveal its control board with an STM32 right in the middle. This might not be the most skilled job, but it’s a change of pace, and hey, as long as the rate stays the same?
Whichever company is doing this, they’re in a conundrum for sure. One of the articles offers an example of a $350,000 spectrometer manufacturing being stalled by lack of a $0.50 part – while this feels exaggerated, it’s within the realm of possibility. For car manufacturers, the difference isn’t as dire, but still severe enough, and not meeting the production targets has ramifications other than the financial ones. It might indeed make sense to buy a $150 washing machine in order to finally be able to move a $30,000 car off the assembly line. Continue reading “Companies Rumored To Harvest Washing Machines For ICs”→
In terms of units sold, it’s no secret that the GameCube was one of Nintendo’s poorest performing home consoles. You could argue increased competition meant sales of the quirky little machine were destined to fall short of the system’s legendary predecessors, but that didn’t keep the Wii from outselling it by a factor of five a few years later. Still, enough incredible games were released for the GameCube that the system still enjoys a considerable fanbase.
Now, with the release of PicoBoot by [webhdx], we suspect the GameCube is about to gain a whole new generation of fans. With just a Raspberry Pi Pico, some jumper wires, and a widely available third-party SD card adapter, this open source project bypasses the console’s original BIOS so it can boot directly into whatever homebrew application the user selects. With how cheap and easy to perform this modification is, we wouldn’t be surprised if it kicked off something of a renaissance for GameCube homebrew development.
Installation takes just five wires.
In the video after the break, [Tito] of Macho Nacho Productionsprovides a rundown of this new project, including a fantastic step-by-step installation guide that covers everything from soldering the jumper wires to the console’s motherboard to getting the firmware installed on the Pico. He then demonstrates booting the console into various community developed front-ends and tools, showing just how versatile the modification is. While some will see this as little more than an easier way to run bootleg games, we can’t help but be excited about what the future holds now that getting your own code to run on the system is so easy.
Alright, maybe it’s not so easy. To solder on the five wires that will eventually snake their way to the GPIO pins of the Pi Pico, you’ll need to strip the console all the way down to the main board. That wouldn’t be too bad itself, but unfortunately to reach two of the connections you’ll need to remove the system’s massive heatsink — which means you’ll need to clean up the old sticky thermal pads and apply new ones if you don’t want your GameCube to turn into a GameCrisp. It’s nothing that would scare off the average Hackaday reader, but it might give pause to those less handy with an iron.
The release of PicoBoot comes hot on the heels of the revelation that the Raspberry Pi Pico can be used not only as an N64 flash cart but as a supercharged PlayStation Memory Card. These projects would all be significantly improved with a custom RP2040 board, and no doubt that’s the direction they’ll eventually head, but it’s hard not to be impressed by what the low-cost microcontroller development board is capable of in its native form. Especially now that it comes in WiFi flavor.
When we were in school, they always told us we can’t see atoms. If you have an electron microscope, then they were wrong. [AlphaPhoenix] has access to a scanning tunneling transmission electron microscope and he shows us some atoms in a very thin slice of a crystal.
Of course, you aren’t directly imaging the atoms. You are looking at the shadows of the atoms, but still. If you’ve never worked with a SEM or STEM before, there are plenty of little details that are interesting like the sample holders and the vacuum system.
