Use PicoGlitcher For Voltage Glitching Attacks

October 30, 2024 by 5 Comments

We see a fair few glitcher projects, especially the simpler voltage glitchers. Still, quite often due to their relative simplicity, they’re little more than a microcontroller board and a few components hanging off some wires. PicoGlitcher by Hackaday.IO user [Matthias Kesenheimer] is a simple voltage glitcher which aims to make the hardware setup a little more robust without getting caught up in the complexities of other techniques. Based on the Raspberry Pico (obviously!), the board has sufficient niceties to simplify glitching attacks in various situations, providing controllable host power if required.

A pair of 74LVC8T245 (according to the provided BoM) level shifters allow connecting to targets at voltages from 1.8 V to 5 V if powered by PicoGlitcher or anything in spec for the ‘245 if target power is being used. In addition to the expected RESET and TRIGGER signals, spare GPIOs are brought out to a header for whatever purpose is needed to control a particular attack. If a programmed reset doesn’t get the job done, the target power is provided via a TPS2041 load switch to enable cold starts. The final part of the interface is an analog input provided by an SMA connector.

The glitching signal is also brought out to an SMA connector via a pair of transistors; an IRLML2502 NMOS performs ‘low power’ glitching by momentarily connecting the glitch output to ground. This ‘crowbarring’ causes a rapid dip in supply voltage and upsets the target, hopefully in a helpful way. An IRF7807 ‘NMOS device provides a higher power option, which can handle pulse loads of up to 66A. Which transistor you select in the Findus glitching toolchain depends on the type of load connected, particularly the amount of decoupling capacitance that needs to be discharged. For boards with heavier decoupling, use the beefy IRF7807 and accept the glitch won’t be as sharp as you’d like. For other hardware, the faster, smaller device is sufficient.

The software to drive PicoGlitcher and the hardware design files for KiCAD are provided on the project GitHub page. There also appears to be an Eagle project in there. You can’t have too much hardware documentation! For the software, check out the documentation for a quick overview of how it all works and some nice examples against some targets known to be susceptible to this type of attack.

For a cheap way to glitch an STM8, you can just use a pile of wires. But for something a bit more complicated, such as a Starlink user terminal, you need something a bit more robust. Finally, voltage glitching doesn’t always work, so the next tool you can reach for is a picoEMP.

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Supercon 2023: Cuddly Companion Bots

October 30, 2024 by 4 Comments

Even in the advanced world of 2024, robots are still better in science fiction than in reality. Star Trek gave us the erudite and refined Data, Rogue One gave us the fierce yet funny K-2SO, and Big Hero 6 gave us the caring charmer named Baymax. All these robots had smarts, capability, and agency. More than that, though—they were faithful(ish) companions to humans, fulfilling what that role entails.

The thing is, we’re not gonna get robots like that unless somebody builds them. [Angela Sheehan] is a artist and an educator, and a maker—and she’s trying to create exactly that. She came down to the 2023 Hackaday Supercon to tell us all about her efforts to create cuddly companion bots for real.

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Portable Solder Paste Station Prevents Smears With Suction

October 30, 2024 by 30 Comments

Applying solder paste to a new custom PCB is always a little nerve-racking. One slip of the hand, and you have a smeared mess to clean up. To make this task a little easier, [Max Scheffler] built the Stencil Fix Portable, a compact self-contained vacuum table to hold your stencil firmly in place and pop it off cleanly every time.

The Stencil Fix V1 used a shop vac for suction, just like another stencil holder we’ve seen. The vacuum can take up precious space, makes the jig a little tricky to move, and bumping the hose can lead to the dreaded smear and colorful language. To get around this [Max] added a brushless drone motor with a 3D printed impeller, with a LiPo battery for power. The speed controller gets its PWM signal from a little RP2040 dev board connected to a potentiometer. [Max] could have used a servo tester, but he found the motor could be a little too responsive and would move the entire unit due to inertia from the impeller. The RP2040 allowed him to add a low pass filter to eliminate the issue. The adjustable speed also means the suction force can be reduced a little for easy alignment of the stencil before locking it down completely.

We love seeing tool projects like these that make future projects a little easier. Fortunately, [Max] made the designs available so you can build your own.

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Homebrew Sferics Receiver Lets You Tune Into Earth Music

October 30, 2024 by 10 Comments

It probably comes as little surprise that our planet is practically buzzing with radio waves. Most of it is of our own making, with cell phones, microwaves, WiFi, and broadcasts up and down the spectrum whizzing around all the time. But our transmissions aren’t the only RF show in town, as the Earth itself is more than capable of generating radio signals of its own, signals which you can explore with a simple sferics receiver like this one.

If you’ve never heard of sferics and other natural radio phenomena, we have a primer to get you started. Briefly, sferics, short for “atmospherics,” are RF signals in the VLF range generated by the millions of lightning discharges that strike the Earth daily. Tuning into them is a pretty simple proposition, as [DX Explorer]’s receiver demonstrates. His circuit, which is based on a design by [K8TND], is just a single JFET surrounded by a few caps and resistors, plus a simple trap to filter out the strong AM broadcast signals in his area. The output of the RF amplifier goes directly into an audio amp, which could be anything you have handy — but you risk breaking [Elliot]’s heart if you don’t use his beloved LM386.

This is definitely a “nothing fancy” build, with the RF section built ugly style on a scrap of PCB and a simple telescopic whip used for an antenna. Tuning into the Earth’s radio signals does take some care, though. Getting far away from power lines is important, to limit AC interference. [DX Explorer] also found how he held the receiver was important; unless he was touching the ground plane of the receiver, the receiver started self-oscillating. But the pips, crackles, and pings came in loud and clear on his rig; check out the video below for the VLF action.

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An International Hackerspace Map

October 29, 2024 by 17 Comments

If you’re looking for a hackerspace while on your travels, there is more than one website which shows them on a map, and even tells you whether or not they are open. This last feature is powered by SpaceAPI, a standard way for hackerspaces to publish information about themselves, including whether or not they are closed.

Given such a trove of data then it’s hardly surprising that [S3lph] would use it to create a gigantic map of central Europe with lights in the appropriate places (German language, Google Translate link) to show the spaces and their status.

The lights are a set of addressable LEDs and the brain is an ESP32, making this an accessible project for most hackers with the time to assemble it. Unsurprisingly then it’s not the first such map we’ve seen, though it’s considerably more ambitious than the last one. Meanwhile if your hackerspace doesn’t have SpaceAPI yet or you’re simply curious about the whole thing, we took a look at it back in 2021.

Thanks [Dave] for the tip.

An exploded view of an electrostatic motor from manufacturer C-Motive. There is a silvery cylinder on the left, two half silver and half golden disks on either side and two thinner gold disks in the center. A square mountin plate is on the right hand side next to one of the silver/gold disks.

Electrostatic Motors Are Making A Comeback

October 29, 2024 by 21 Comments

Electrostatic motors are now common in MEMS applications, but researchers at the University of Wisconsin and spinoff C-Motive Technologies have brought macroscale electrostatic motors back. [via MSN/WSJ]

While the first real application of an electric motor was Ben Franklin’s electrostatically-driven turkey rotisserie, electromagnetic type motors largely supplanted the technology due to the types of materials available to engineers of the time. Newer dielectric fluids and power electronics now allow electrostatic motors to be better at some applications than their electromagnetic peers.

The main advantage of electrostatic motors is their reduced critical materials use. In particular, electrostatic motors don’t require copper windings or any rare earth magnets which are getting more expensive as demand grows for electrically-powered machines. C-Motive is initially targeting direct drive industrial applications, and the “voltage driven nature of an electrostatic machine” means they require less cooling than an electromagnetic motor. They also don’t use much if any power when stalled.

Would you like a refresher on how to make static electricity or a deeper dive on how these motors work?

Lies, Big Lies And LED Lightbulb Lifespan Promises

October 29, 2024 by 109 Comments
Checking the voltages on a dead LED lightbulb. Best done by a professional, obviously. (Credit: The Doubtful Technician, YouTube)
Checking the voltages on a dead LED lightbulb. Best done by a professional, obviously. (Credit: The Doubtful Technician, YouTube)

We have probably all seen the marketing blurbs on packaging and elsewhere promoting the amazing lifespan of LED lighting solutions. Theoretically you should be able to install a LED bulb in a fixture that used to hold that incandescent lightbulb which had to be replaced annually and have it last a decade or longer. Yet we seem to replace these LED bulbs much more often than that, with them suffering a range of issues. To get to the root cause of this, [The Doubtful Technician] decided to perform an autopsy on a couple of dead lightbulbs which he got from a variety of sources and brands.

One lamp is an Amazon-bought one from a seller who seems to have vanished, but was promised over 3 years of constant use. Other than the fun of blinding of oneself while testing, this one was easy to diagnose, with a dodgy solder joint on a resistor in a MELF package. The next one from Lowes was very dim, and required popping open with some gentle force, which revealed as likely culprit a shorted SMD resistor. Finally a more substantial (i.e. heavier) bulb was tested which had survived about 7 years in the basement until it and its siblings began to suddenly die. Some might consider this the normal lifespan, but what really failed in them?

The electronics in this last bulb were the most impressive, with a full switch mode power supply (SMPS) that appears to have suffered a failure. Ultimately the pattern with these three bulbs was that while the LEDs themselves were still fine, it were things like the soldering joints and singular components on the LED driver PCB that had failed. Without an easy way to repair these issues, and with merely opening the average LED lightbulb being rather destructive, this seems like another area where what should be easy repairs are in fact not, and more e-waste is created.

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