Finding A Way To Produce Powerful Motors Without Rare Earths

January 13, 2026 by 31 Comments

The electric vehicle revolution has created market forces to drive all sorts of innovations. Battery technology has progressed at a rapid pace, and engineers have developed ways to charge vehicles at ever more breakneck rates. Similarly, electric motors have become more powerful and more compact, delivering greater performance than ever before.

In the latter case, while modern EV motors are very capable things, they’re also reliant on materials that are increasingly hard to come by. Most specifically, it’s the rare earth materials that make their magnets so good. The vast majority of these minerals come from China, with trade woes and geopolitics making it difficult to get them at any sort of reasonable price. Thus has sprung up a new market force, pushing engineers to search for new ways to make their motors compact, efficient, and powerful.

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Great Trains, Not So Great AI Chatbot Security

January 13, 2026 by 10 Comments

A joy of covering the world of the European hackerspace community is that it offers the chance for train travel across the continent using the ever-good-value Interrail pass. For a British traveler such a journey inevitably starts with a Eurostar train that whisks you in comfort through the Channel Tunnel, so a report of an AI vulnerability on the Eurostar website from [Ross Donald] particularly caught our eye. What it reveals goes beyond the train company, and tells us some interesting tidbits about how safeguards in AI chatbots can be circumvented.

The bot sits on the Eurostar website, and is a simple HTML and JavaScript client that talks to the LLM back-end itself through an API. The API queries contain the whole conversation, because as AI toy manufacturers whose products have been persuaded to spout adult context will tell you, large language models (LLM)s as commonly implemented do not have a context memory for the conversation in hand.

The Eurostar developers had not made a bot without guardrails, but the vulnerability lay in those guardrails only being applied to the most recent message. Thus an innocuous or empty message could be sent, with a payload concealed in a previous message in the conversation. He demonstrates the bot returning system information about itself, and embedding injected HTML and JavaScript in its responses.

He notes that the target of the resulting output could only be himself and that he was unable to access any data from other customers, so perhaps in this case the train operator was fortunately spared the risk of a breach. From his description though, we agree they could have responded to the disclosure in a better manner.

Header image: Eriksw, CC BY-SA 4.0.

Ask Hackaday: Do You Curb Shop Components?

January 13, 2026 by 55 Comments

I’m not proud. When many of us were kids, we were unabashedly excited when trash day came around because sometimes you’d find an old radio or — jackpot — an old TV out by the curb. Then, depending on its size, you rescued it, or you had your friends help, or, in extreme cases, you had to ask your dad. In those days, people were frugal, so the chances of what you found being fixable were slim to none. If it was worth fixing, the people would have probably fixed it.

While TVs and radios were the favorites, you might have found other old stuff, but in those days, no one was throwing out a computer (at least not in a neighborhood), and white goods like refrigerators and washing machines had very little electronics. Maybe a mechanical timer or a relay, but that’s about it.

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An SD Card Of Your Own For Microcontroller Projects

January 13, 2026 by 15 Comments

If you’ve wiring up a microcontroller and need some kind of storage, it’s likely you’ll reach for an SD card. Compared to other ways of holding data on your project, SD cards are just so much cheaper, resilient to physical and magnetic shocks, and simpler to work with from both a hardware and software perspective. On the other hand, it might seem silly to put a SD card slot on a board that’s never going to see a replacement card. [DIY GUY Chris] wants to advertise a solution for that: a cardless SD card chip by XTX that can act as a drop-in replacement for your projects. 

The XTXD0*G series are NAND flash chips of precisely the sort you’d find in an SD card, except without the SD card. That means you can use your usual SD card access libraries to speed prototyping, but skip the BOM cost of an actual card reader. In his Instructable and the video embedded below [Chris] shows how he used the 4 Gbit version, the XTSD04GLGEAG to make a custom SD-compatible breakout board that is equally happy in your laptop’s card reader or on a breadboard.

To get it plugged into the breadboard, [Chris] is using the standard 2.54 mm headers you can get anywhere; to get it plugged into a card reader, he’s just relying on the PCB being cut to shape. [Chris] notes that you’ll want to have the board built at 0.6 mm thickness if you’re going to plug it in like a micro SD card.

Of course once you’ve gotten used to the little NAND chips, there’s no need to put them on breakouts but this looks like a fun way to test ’em out. You don’t need to keep your flash chip on an SD-card sized PCB, either; we saw something similar used to make modern game cartridges. If you insist on using a standard SD card and don’t want to buy a slot, you can certainly DIY that instead. 

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Fixing A KS Jive DAB Radio With A Dash Of Fake ICs

January 13, 2026 by 13 Comments
The radio unit after a successful repair. (Credit: Buy it Fix it, YouTube)
The radio unit after a successful repair. (Credit: Buy it Fix it, YouTube)

The exciting part about repairing consumer electronics is that you are never quite sure what you are going to find. In a recent video by [Mick] of Buy it Fix it on YouTube the subject is a KS Jive radio that throws a few curve balls along the way. After initially seeing the unit not power on with either batteries or external power, opening it up revealed a few loose wires that gave the false hope that it would be an easy fix.

As is typical, the cause of the unit failing appears to have been a power surge that burned out a trace and obliterated the 3.3V LDO and ST TDA7266P amplifier. While the trace was easily fixed, and AMS1117 LDOs are cheap and plentiful, the amplifier chip turned out to be the real challenge on account of being an EOL chip.

The typical response here is to waddle over to purveyors of scrap hardware, like AliExpress sellers. Here [Mick] bought a ‘new’ TDA7266P, but upon receiving his order, he got suspicious after comparing it with the busted original. As can be seen in the top image, the markings, logo and even typeface are wildly different. Thus [Mick] did what any reasonable person does and x-rayed both chips to compare their internals.

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ARCTURUS control panel

The ARCTURUS Computer Developed At Sydney University In The 1960s

January 12, 2026 by 5 Comments

[State of Electronics] have released their latest video about ARCTURUS, the 14th video in their series The Computer History of Australia.

ARCTURUS was a research computer system developed on a shoestring budget at Sydney University in the 1960s, and was in service until 1975. Particularly the system was developed by [David Wong] as a part of his PhD thesis: The design and construction of the digital computers snocom, nimbus and arcturus (PDF). [David] worked in collaboration with [Kevin R. Rosolen] who is interviewed in the video.

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Electronic Nose Sniffs Out Mold

January 12, 2026 by 16 Comments

It turns out, that mold is everywhere. The problem is when it becomes too much, as mold infestations can have serious health effects on both humans and animals. Remediation is extremely expensive, too. So there are plenty of benefits to finding mold early. Now, German researchers are proposing an electronic “nose” that uses UV-activated tin oxide nanowires that change resistance in the presence of certain chemicals, and they say it can detect two common indoor mold species.

The nanowire sensors can detect Staachybotrys chartarum and Chaetominum globosum. The real work, though, is in the math used to determine positive versus negative results.

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