Author: John Elliot V

161 Articles

An LDO schematic and some notes about their features

Texas Instruments Explain Low-Dropout Linear Voltage Regulators

January 10, 2026 by 3 Comments

Today in power electronics, the folks over at Texas Instruments have put together a video covering low-dropout (LDO) linear regulators.

For a hacker, power is pretty fundamental, so it behooves us to know a little bit about what our options are when it comes time to regulate power to our projects. In this video [Alex Hanson] from Texas Instruments runs us through the linear voltage regulators known as low-dropout regulators (LDOs). It turns out that LDOs are often a poor choice for voltage regulation because they are inefficient when compared to switching regulator alternatives and can be more expensive too.

So when might you use an LDO? In very low power situations where heat and efficiency doesn’t matter very much. LDOs operate best when the input voltage is very near the output voltage and when current demands are low (roughly speaking less than ~50 mA is okay, ~500 mA is maximum, and some applications will support 1 to 3 A, although not with great efficiency and in this case thermal emissions — or magic smoke! — will become an issue).

What LDOs bring to the table is relatively clean and low-noise voltage as well as low dropout voltage (the minimum difference between the input and output voltage needed for regulation), which is their defining feature. What’s more with an appropriate output capacitor they can react quickly to load changes and they usually emit minimal EMI. LDOs are not about efficiency, they are about quality, simplicity, and control.

You might like to read more about when linear regulators might be the right choice or what your other options are.

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String art rendering of a face

BASIC Programming With No Strings Attached

January 9, 2026 by 16 Comments

Today in programming language hacks we have string art rendered in BASIC. String art — also known as pin and thread art, or filography — is an art form where images are invoked by thread woven between pins on the border of an image. In this case the thread and the pins are virtual and there is a simple 67 line BASIC program which generates and renders them.

Of course BASIC, the Beginner’s All-purpose Symbolic Instruction Code, isn’t just one thing and was a bit of a moving target over the years. Invented in 1964 at Dartmouth College by John Kemeny and Thomas Kurtz it turned into a family of languages as a dynamic array of implementations added, removed, and changed implementation details as the future unrolled.

We remember GW-BASIC and QuickBASIC, but the landscape was much broader than that. Implementations of QuickBASIC came with a “compiler”, qb45.exe, which worked by bundling the BASIC script as p-code into an executable along with the runtime binary, which we used back in the day to make “real applications”, not mere scripts.

Thanks to [Keith Olson] for writing in to let us know about this one. If you’re interested in seeing what the state of the art in string art is, be sure to check out String Art Build Uses CNC To Make Stringy Art and CNC Router Frame Repurposed For Colorful String Art Bot. The best string art is in the real world, not software!

Detail of Horus's face, from a statue of Horus and Set placing the crown of Upper Egypt on the head of Ramesses III. Twentieth Dynasty, early 12th century BC.

HORUS Framework: A Rust Robotics Library

January 9, 2026 by 7 Comments

[neos-builder] wrote in to let us know about their innovation: the HORUS Framework — Hybrid Optimized Robotics Unified System — a production-grade robotics framework built in Rust for real-time performance and memory safety.

This is a batteries included system which aims to have everything you might need available out of the box. [neos-builder] said their vision is to create a robotics framework that is “thick” as a whole (we can’t avoid this as the tools, drivers, etc. make it impossible to be slim and fit everyone’s needs), but modular by choice.

[neos-builder] goes on to say that HORUS aims to provide developers an interface where they can focus on writing algorithms and logic, not on setting up their environments and solving configuration issues and resolving DLL hell. With HORUS instead of writing one monolithic program, you build independent nodes, connected by topics, which are run by a scheduler. If you’d like to know more the documentation is extensive.

The list of features is far too long for us to repeat here, but one cool feature in addition to the real-time performance and modular design that jumped out at us was this system’s ability to process six million messages per second, sustained. That’s a lot of messages! Another neat feature is the system’s ability to “freeze” the environment, thereby assuring everyone on the team is using the same version of included components, no more “but it works on my machine!” And we should probably let you know that Python integration is a feature, connected by shared-memory inter-process communication (IPC).

If you’re interested in robotics and/or real-time systems you should definitely be aware of HORUS. Thanks to [neos-builder] for writing in about it. If you’re interested in real-time systems you might like to read Real-Time BART In A Box Smaller Than Your Coffee Mug and Real-Time Beamforming With Software-Defined Radio.

Two threads running concurrently

The Staggering Complexity And Subtlety Of Concurrency

January 8, 2026 by 23 Comments

If you’re gonna be a hacker eventually you’re gonna have to write code. And if you write code eventually you’re gonna have to deal with concurrency. Concurrency is what we call it when parts of our program run at the same time. That could be because of something fairly straightforward, like multiple threads, or multiple processes; or something a little more complicated such as event loops, asynchronous or non-blocking I/O, interrupts and signal handlers, re-entrancy, co-routines / fibers / green threads, job queues, DMA and hardware level concurrency, speculative or out-of-order execution at CPU-level, time-sharing on single-core systems, or parallel execution on multi-core systems. There are just so many ways to get tied up with concurrency.

In this video from [Core Dumped] we learn about The ’80s Algorithm to Avoid Race Conditions (and Why It Failed). This video explains what a race condition looks like and talks through what the critical section is and approaches to protecting it. This video introduces an old approach to protect the critical section first invented in 1981 known as Peterson’s solution, but then goes on to explain how Peterson’s solution is no longer reliable as much has changed since the 1980s, particularly compilers will reorganize instructions and CPUs may run code out of order. So there is no free lunch and if you have to deal with concurrency you’re going to want some kind of support for a mutex of some type. Your programming language and its standard library probably have various types of locks available and if not you can use something like flock (also available as a syscall, to complement the POSIX fcntl), which may be available on your platform.

If you’re interested in contemporary takes on concurrency you might like to read Amiga, Interrupted: A Fresh Take On Amiga OS or The Linux Scheduler And How It Handles More Cores.

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The Fourier transform

The Unreasonable Effectiveness Of The Fourier Transform

January 7, 2026 by 30 Comments

A talk, The Unreasonable Effectiveness of the Fourier Transform, was presented by [Joshua Wise] at Teardown 2025 in June last year. Click-through for the notes or check out the video below the break for the one hour talk itself.

The talk is about Orthogonal Frequency Division Multiplexing (OFDM) which is the backbone for radio telecommunications these days. [Joshua] tries to take an intuitive view (rather than a mathematical view) of working in the frequency domain, and trying to figure out how to “get” what OFDM is (and why it’s so important). [Joshua] sent his talk in to us in the hope that it would be useful for all skill levels, both folks who are new to radio and signal processing, and folks who are well experienced in working in the frequency domain.

If you think you’ve seen “The Unreasonable Effectiveness of $TOPIC” before, that’s because hacker’s can’t help but riff on the original The Unreasonable Effectiveness of Mathematics in the Natural Sciences, wherein a scientist wonders why it is that mathematical methods work at all. They seem to, but how? Or why? Will they always continue to work? It’s a mystery.

Hidden away in the notes and at the end of his presentation, [Joshua] notes that every year he watches The Fast Fourier Transform (FFT): Most Ingenious Algorithm Ever? and every year he understands a little more.

If you’re interested in OFDM be sure to check out AI Listens To Radio.

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A photo of the various parts for this MSLA 3D printer

Build A 2K Resolution MSLA 3D Resin Printer For Cheap

January 7, 2026 by 13 Comments

Have an old Android device collecting dust somewhere that you’d like to put to better use? [Electronoobs] shows us how to make a Masked Stereolithography Apparatus (MSLA) printer for cheap using screens salvaged from old Android phones or tablets.

[Electronoobs] wanted to revisit his earlier printer with all the benefits of hindsight, and this is the result. The tricky bit, which is covered in depth in the video below the break, is slicing up the model into graphics for each layer, so that these layers can be rendered by the LCD for each layer during the print.

The next tricky bit, once your layer graphics are in hand, is getting them to the device. This build does that by installing a custom Android app which connects to a web app hosted on the ESP32 microcontroller controlling the print, and the app has a backchannel via a USB OTG adapter installed in the device. [Electronoobs] notes that there are different and potentially better ways by which this full-duplex communication can be achieved, but he is happy to have something that works.

If you’re interested in resin printer tech, be sure to check out Continuous Printing On LCD Resin Printer: No More Wasted Time On Peeling? Is It Possible? and Resin Printer Temperature Mods And Continuous IPA Filtration.

Ken Shirriff working on the Commodore PET

This 8-Bit Commodore PET Was Hard To Fix

January 6, 2026 by 13 Comments

Over on [Ken Shirriff]’s blog is a tricky Commodore PET repair: tracking down 6 1/2 bad chips. WARNING: contains 8-bit assembly code.

The Trinity of 1977 which started the personal computer revolution were the Apple II, the Commodore PET, and the TRS-80. In this project it’s a failing Commodore PET which is being restored.

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