Misc Hacks

4196 Articles

Sega Genesis Finally Gets Long-Awaited Stock Ticker App 37 Years After Launch

March 19, 2026 by 14 Comments

Until now, if you were seated at your Sega Genesis and wanted to check your stock portfolio, you were out of luck. You had to get a smartphone, or a computer, or maybe even a television to look up stock prices and understand your financial position. Thankfully, though, Sega’s neglect of its hero platform has finally been corrected. [Mike Wolak] has given the 16-bit console the real-time stock ticker it so desperately needed. 

The build runs on a MegaWiFi cartridge, which uses an ESP8266 or ESP32 microcontroller to add WiFi communication to the Sega Genesis (or Mega Drive). [Mike] wrote a custom program for the platform that would query the Finnhub HTTPS API and display live stock prices via the Genesis’s Video Display Processor. It does so via a clean console-like interface that would be familiar to users of other 16-bit machines from this era, though seeing so much textual output would have been uncommon.

By default, the stock ticker is set to show prices for major tech stocks, but you can set it up to display any major symbol available in the Finnhub data stream. You can configure up to eight custom stocks and input your holdings, and the software will calculate and display your net worth in real time.

All the files are available for those eager to monitor their portfolios on a Sega, as the financial gods intended. [Mike] notes it took a little work to get this project over the line, particularly as the ESP32-C3 doesn’t support HTTPs with stock firmware. A few other hacks were needed to keep the Genesis updating the screen during HTTP queries, too.

If you have a concentrated portfolio and a spare Sega Genesis, this could be a fun retro way to keep an eye on your holdings. Alternatively, you might prefer to go the classic paper tape route.

Continue reading “Sega Genesis Finally Gets Long-Awaited Stock Ticker App 37 Years After Launch”

Ternary RISC Processor Achieves Non-Binary Computing Via FPGA

March 16, 2026 by 33 Comments

You would be very hard pressed to find any sort of CPU or microcontroller in a commercial product that uses anything but binary to do its work. And yet, other options exist! Ternary computing involves using trits with three states instead of bits with two. It’s not popular, but there is now a design available for a ternary processor that you could potentially get your hands on.

The device in question is called the 5500FP, as outlined in a research paper from [Claudio Lorenzo La Rosa.] Very few ternary processors exist, and little effort has ever been made to fabricate such a device in real silicon. However, [Claudio] explains that it’s entirely possible to implement a ternary logic processor based on RISC principles by using modern FPGA hardware. The impetus to do so is because of the perceived benefits of ternary computing—notably, that with three states, each “trit” can store more information than regular old binary “bits.” Beyond that, the use of a “balanced ternary” system, based on logical values of -1, 0 , and 1, allows storing both negative and positive numbers without a wasted sign bit, and allows numbers to be negated trivially simply by inverting all trits together.

The research paper does a good job of outlining the basis of this method of computing, as well as the mode of operation of the 5500FP processor. For now, it’s a 24-trit device operating at a frequency of 20MHz, but the hope is that in future it would be possible to move to custom silicon to improve performance and capability. The hope is that further development of ternary computing hardware could lead to parts capable of higher information density and lower power consumption, both highly useful in this day and age where improvements to conventional processor designs are ever hard to find.

Head over to the Ternary Computing website if you’re intrigued by the Ways of Three and want to learn more. We perhaps don’t expect ternary computing to take over any time soon, given the Soviets didn’t get far with it in the 1950s. Still, the concept exists and is fun to contemplate if you like the mental challenge. Maybe you can even start a rumor that the next iPhone is using an all-ternary processor and spread it across a few tech blogs before the week is out. Let us know how you get on.

Mapping The Sound Field Of An Acoustic Levitator

March 12, 2026 by 4 Comments

Sound! It’s a thing you hear, moreso than something you see with your eyes. And yet, it is possible to visualize sound with various techniques. [PlasmatronX] demonstrates this well, using a special scanning technique to visually capture the sound field inside an acoustic levitation device. 

If you’re unfamiliar, acoustic levitation devices like this use ultrasound to create standing waves that can hold small, lightweight particles in mid-air. The various nodes of the standing wave are where particles will end up hovering. [PlasmatronX] was trying to calibrate such a device, but it proved difficult without being able to see what was going on with the sound field. Hence, the desire to image it!

Imaging the sound field was achieved with a Schlieren optical setup, which can capture variations in air density as changes in brightness in an image. Normally, Schlieren imaging only works in a two-dimensional slice. However, [PlasmatronX] was able to lean on computed tomography techniques to create a volumetric representation of the sound field in 3D. He refers to this as “computerized acoustical tomography.” Images were captured of the acoustic levitation rig from different angles using the Schlieren optics rig, and then the images were processed in Python to recreate a 3D image of the sound field.

We’ve seen some other entertaining applications of computed tomography techniques before, like inspecting packets of Pokemon cards. Video after the break.

Continue reading “Mapping The Sound Field Of An Acoustic Levitator”

Running Video Through A Guitar Effects Pedal

March 4, 2026 by 1 Comment

Guitar pedals are designed to take in a sound signal, do fun stuff to it, and then spit it out to your amplifier where it hopefully impresses other people. However, [Liam Taylor] decided to see what would happen if you fed video through a guitar pedal instead. 

The device under test is a Boss ME-50 multi-effects unit. It’s capable of serving up a wide range of effects, from delay to chorus to reverb, along with compression and distortion and a smattering of others. [Liam] hooked up the composite video output from an old Sony camcorder from the 2000s to a 3.5 mm audio jack, and plugged it straight into the auxiliary input of the ME-50 (notably, not the main guitar input of the device).

The multi-effects pedal isn’t meant to work with an analog video signal, but it can pass it through and do weird things to it regardless. Using the volume pedal on the ME-50 puts weird lines on the signal, while using a wah effect makes everything a little wobbly. [Liam] then steps through a whole range of others, like ring modulation, octave effects, and reverb, all of which do different weird things to the visuals. Particularly fun are some of the periodic effects which create predictable variation to the signal. True to its name, the distortion effect did a particularly good job of messing things up overall.

It’s a fun experiment, and recalls us of some of the fantastic analog video synths of years past. Video after the break.

Continue reading “Running Video Through A Guitar Effects Pedal”

Designing A Pen Clip That Never Bends Out Of Shape

March 3, 2026 by 9 Comments

If you’ve ever used a ballpoint pen with a clip on the top, you’ve probably noticed they bend pretty easily. The clip relies on you only bending it a small amount to clip it on to things; bend it too far, and it ends up permanently deformed. [Craighill] decided to develop a pen clip that didn’t suffer this ugly malady. 

The wire clip design easily opens wide because the spring wire is not actually deforming much at all. Credit: YouTube video, via screenshot

The problem with regular pen clips comes down to simple materials science. Bend the steel clip a little bit, and the stress in the material remains below the elastic limit—so it springs back to its original shape. Push it too far, though, and you’ll end up getting into the plastic deformation region, where you’ve applied so much stress that the material is permanently deformed.

[Craighill] noted this problem, and contemplated whether a better type of clip was possible. An exploration of carabiner clips served to highlight possible solutions. Some carabiners using elastically-deformed closures that faced the same problem, while others used more complicated spring closures or a nifty bent-wire design. This latter solution seemed perfect for building a non-deforming pen clip. The bent wire is effectively a small spring, which allows it to act as a clip to hold the pen on to something. However, it’s also able to freely rotate out from the pen body, limiting the amount of actual stress put on the material itself, which stops it entering the plastic deformation region that would ruin it.

It’s some neat materials science combined with a pleasant bit of inventing, which we love to see. Sometimes there is joy to be had in contemplating and improving even the simplest of things. Video after the break.

Continue reading “Designing A Pen Clip That Never Bends Out Of Shape”

Back To Basics: Hacking On Key Matrixes

March 3, 2026 by 12 Comments

A lot of making goes on in this community these days, but sometimes you’ve just gotta do some old fashioned hacking. You might have grabbed an old Speak and Spell that you want to repurpose as an interface for a horrifyingly rude chatbot, or you’ve got a calculator that is going to become the passcode keypad for launching your DIY missiles. You want to work with the original hardware, but you need to figure out how to interface all the buttons yourself.

Thankfully, this is usually an easy job. The vast majority of buttons and keypads and keyboards are all implemented pretty much the same way. Once you know the basics of how to work with them, hooking them up is easy. It’s time to learn about key matrixes!

Continue reading “Back To Basics: Hacking On Key Matrixes”

C64 Gets A Modern Interactive Disassembler

March 2, 2026 by 2 Comments

If you want to pull apart a program to see how it ticks, you’re going to need a disassembler. [Ricardo Quesada] has built Regenerator 2000 for just that purpose. It’s a new interactive disassembler for the Commodore 64 platform.

Naturally, Regenerator 2000 is built with full support for the 6502 instruction set, including undocumented op-codes as well. It’s able to automatically create labels and comments and can be paired with the VICE C64 emulator for live debugging. You can do all the usual debug stuff like inspecting registers, stepping through code, and setting breakpoints and watchpoints when you’re trying to figure out how something works. It can even show you sprites, bitmaps, and character sets right in the main window.

Files are on Github if you’re ready to dive in. You might find this tool to be a useful companion to C64 assembly tools we’ve featured previously, as well. If you’re pulling off your own retro development hacks, be sure to notify the tipsline.

[Thanks to Stephen Waters for the tip!]