2022 Hackaday Prize

72 Articles

Hackaday Prize 2022: Soviet Geiger Counter Gets WiFi

July 30, 2022 by 4 Comments

[Marek] has an impressive collection of old Soviet-style Geiger counters. These are handy tools to have in some specific situations, but for most of us they would be curiosities. Even so, they need some help from the modern world to work well, and [Marek] has come up with some pretty creative ways of bringing them into the 21st century. This version, for example, adds WiFi capabilities.

This build is based on the STS-5 Geiger tube but the real heavy lifting is handled by an ESP8266 which also provides a wireless network connection. There are some limitations to using an ESP8266 to control a time-sensitive device like a Geiger tube, especially the lack of local storage, but [Marek] solves this problem by including a real-time clock and locally caching data until a network connection is re-established. Future plans for the device include adding temperature and atmospheric temperature sensors.

Eventually this Geiger counter will be installed in a watertight enclosure outside so [Marek] can keep an eye on the background radiation of his neighborhood. Previously he was doing this with another build, but that one only had access to the network over an Ethernet cable, so this one is quite an upgrade.

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A TRS-80 with a small PCB attached

Hackaday Prize 2022: Modern Plug-in Gives TRS-80 Its Voice Back

July 29, 2022 by 9 Comments

Like artificial intelligence, speech synthesis was one of those applications that promised to revolutionize computing in the 1980s, only to fizzle out after people realized that a robotic voice reading out predefined sentences was not actually that useful. Nevertheless, computer manufacturers didn’t want to miss out on the hype and speech synthesizers became a relatively common add-on for a typical home computer.

Those add-ons were usually built around a custom voice-synthesis chip. If that chip fails, you’re out of luck: many were made in limited quantities by small companies and are impossible to find today. So if you’ve got a Tandy TRS-80 Voice Synthesizer with a dodgy SC-01-A chip, you’ll definitely want to check out [Michael Wessel]’s Talker/80 project. It’s a plug-in module for the TRS-80 that’s software compatible with the original Voice Synthesizer, but built from modern components. Synthesis is still performed by a custom IC, but now it’s using the more common Epson S1V30120 text-to-speech chip.

A speech synthesis PCB for a TRS-80The Talker/80 also has an ATmega644, which connects to the TRS-80’s expansion port on one side and to the Epson chip on the other. It can either emulate the original SC-01-A, in which case it expects text to be split into separate phonemes, or it can be set to an “advanced” mode in which it can directly process normal English text. In either case the voice sounds quite different from what original, although the new voice is arguably a little clearer.

We’ve seen modern speech synthesizers made for several classic computers: you can hook up the same Epson chip to an Amstrad CPC, or an ESP8266 to a VIC-20. If you’ve got an actual working SC-01-A but no vintage computer to use it with, you can also control it with an Arduino.

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Hackaday Prize 2022: A Functional Commodore PET Tribute

July 28, 2022 by 13 Comments

The C64 may be the best-selling computer of all time, but Commodore made several machines before that, too. [Mjnurney] always loved the Commodore PET, and set about building some new machines in the PET’s unique all-in-one form factor.

The case design started with measurements taken from an original Commodore PET, of which [Mjnurney] has three. Then, it was modified and extended to make room for a proper keyboard. The case also mounts a 14″ IPS display, two 15W speakers, and a gas strut enabling the case to be propped open for easy maintenance. It’s actually made out of real sheet metal, too!

The primary version mounts an Amiga 500 inside, including its classic keyboard. However, [Mjnurney] has developed a PC version, too. Both look great, and it’s wild to see Netflix displayed on a machine that looks more at home in 1977. Perhaps most of all, though, we love the dual floppy drives just below the screen.

Throwback cases pay tribute to some of our favorite machines. The tiny ones are perhaps the cutest of all.

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The LCD being replaced in an old laptop

Hackaday Prize 2022: Repairing A Vintage Laptop With Modern Components

July 27, 2022 by 23 Comments

Laptop computers may be ubiquitous today, but there was a time when they were the exclusive preserve of rich businesspeople. Back in the early ’90s, the significant added cost of portability was something that few were willing to pay. As a result, not many laptops from those days survive; for those that do, keeping them running can be quite a challenge due to their compact construction and use of non-standard components.

[Adalbert] ran into these problems when he got his hands on a Toshiba T3200SXC from 1991. As the first laptop ever to feature a color TFT display, it’s very much worth preserving as an historical artifact. Sadly, the original display was no longer working: it only displayed a very faint image and went completely blank soon after. Leaky capacitors then destroyed the power supply board, leaving the laptop completely dead. [Adalbert] then began to ponder his options, which ranged from trying to repair the original components to ripping everything out and turning this into a modern-computer-in-an-old-case project.

In the end he went for an option in between, which we as preservationists can only applaud: he replaced the display with a modern one of the correct size and resolution and built a new custom power supply, keeping the rest of the computer intact as far as possible. [Adalbert] describes the overall process in the video embedded below and goes into lots of detail on his hackaday.io page.

Connecting a modern LCD screen was not as difficult as it might seem: where the old display had an RGB TTL interface with three bits per color, the new one had a very similar system with six bits per color. [Adalbert] made an adapter PCB that simply connected the three bits from the laptop to the highest three bits on the screen. A set of 3D-printed brackets ensured a secure fit of the new screen in the classic case.

The internal power supply module of a laptopFor the power supply [Adalbert] took a similar approach. He designed a PCB with several DC/DC converters that fit easily inside the computer’s case, leaving enough space to add a battery. This made the old Toshiba more portable than it ever was — believe it or not, the original T3200SXC could only be used with a mains connection.

Once the laptop was restored to working order, [Adalbert] added a few finishing touches: a sound card and speakers made it suitable as a gaming platform, and a network card gave it rudimentary online capabilities. The end result is a T3200SXC that looks and feels exactly the way it did when it was new, but with a few added features. That’s a really satisfying result: many classic laptop projects add modern computing hardware, or even completely replace the original contents. You might also want to check out [Adalbert]’s unusual 3D printer based PCB manufacturing technique that he used for the new power supply.

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Hackaday Prize 2022: Digital Dice Towers Built In Beautiful Retro Cases

July 26, 2022 by 5 Comments

Retro hardware often looks fantastic, but we may find we no longer need it for its original function. [John Anderson] found that to be the case with some old Heathkit gear, and set about giving them a fun overhaul.

With the help of AVR microcontrollers, the devices have been repurposed into electronic dice towers for playing Dungeons & Dragons. A seed is generated based on the chip’s uptime, and supplied to a pseudorandom number generator that emulates dice rolls. The devices can be configured to roll a variety of dice, including the usual 6, 8, 10, and 20-sided varieties. Plus, they can be set to roll multiple dice at a time — useful when you’re rolling complicated spells and attacks in combat.

[John] has converted a variety of Heathkit devices, from Morse code trainers to digital multi-meters. They provide their beautiful cases and a great retro aesthetic, and we think they’d make fitting table decoration for retro cyberpunk tabletop games, too.

Creating your own electronic dice is a great way to get familiar with programming microcontrollers. Video after the break.

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A weighing scale with a moving-coil meter as a display

Hackaday Prize 2022: Arduino-Powered Weighing Scale Has A Real Analog Display

July 25, 2022 by 3 Comments

Digital displays are useful for quick and accurate readout, but lots of people prefer the physical motion of a needle moving along a dial. For instance, many smartwatch users choose an analog face to show the time, and modern cars with digital dashboards often default to showing an analog speedometer. Following this trend, [Miro Pavleski] built a digital weighing scale with an analog display that not only looks neat, but also serves as a good demonstration of the way that modern scales work.

Inside, the device is built up like a typical electronic scale: the heart of the instrument is a load cell that supports the platform and bends in proportion to the weight applied. This bending motion is sensed by a set of strain gauges wired up in a Wheatstone bridge configuration. An HX711 readout chip measures the resulting voltage and converts it to a digital code that is sent to a microcontroller, in this case an Arduino Nano.

Whereas a typical scale would then simply show the resulting number on an LCD display, [Mirko] decided to use a moving coil meter driven by the Arduino’s analog output. That meter was originally designed to show currents, so [Mirko] printed a new background image using kilograms instead.

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2022 Hackaday Prize: Make Your World More Disaster Resistant, More Engaged

July 25, 2022 by 10 Comments

Following along with the 2022 Hackaday Prize theme on building a better world by doing what we all do best – hacking together solutions – the fourth round of the Prize focuses on making our local communities more resilient against and sensitive to severe weather and environmental disasters. Whether it’s an early warning system for wildfires or a distributed communication network that will keep working even when the cell phone service goes down, we’re challenging you to help make your world safer by reacting sooner and better. Get your project entered now!

Sensing

We love systems that help us monitor our environments, and not just for idle curiosity or citizen science. Sometimes it’s critical. We’ve seen monitors aimed at giving you a personal particulate air quality indicator, especially helpful for people with respiratory problems when downstream of a forest fire.

But even better is networking these together to generate an air quality map, or to log long-run trends over time and space. CanAirIO, for instance, has both a fixed and mobile unit that can help map out CO2 and particulate matter quality. Or maybe it’s not wildfires that invade your airspace, but rather pollution from car use. We’ve seen projects like that before too, and anything along these lines would make a great entry into this challenge round. Could you predict local air quality? Continue reading “2022 Hackaday Prize: Make Your World More Disaster Resistant, More Engaged”