classic hacks

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That Elusive Valve Amp Sound, For Not A Lot! (There Has To Be A Catch)

September 1, 2020 by 53 Comments

It was with considerable interest last month that I set out to track down where in the world there are still factories making tubes. My research found them in Slovakia, Russia, and China, and it’s fairly certain I didn’t find all the manufacturers by any means. There appeared to be a whole class of mundane tubes still in production that weren’t to be found on their glossy websites. A glance at any outlet through which Chinese modules can be bought will find this type of tube in small audio amplifier projects, and some of them can be astoundingly cheap. When faced with cheap electronics of course I’m tempted to buy some, so I parted with about £10 ($12.50) and bought myself a kit for a two-tube device described as a stereo preamplifier and headphone amplifier.

An Unusual Tube Choice For Audio

What I received for my tenner was a press-seal bag with a PCB and a pile of components, and not much else. No instructions, which would have been worrisome were the board not clearly marked with the value of each component. The circuit was on the vendor’s website and is so commonly used for these sort of kits that it can be found all over the web — a very conventional twin common-cathode amplifier using a pair of 6J1 miniature pentodes, and powered through a +25 V and -25 V supply derived from a 12 VAC input via a voltage multiplier and regulator circuit. It has a volume potentiometer, two sets of phono sockets for input and output, and the slightly naff addition of a blue LED beneath each tube socket to impart a blue glow. I think I’ll pass on that component.

The 6J1 seems to be ubiquitous throughout the Chinese kits, which is surprising when you understand that it’s not an audio tube at all. Instead it’s a small-signal VHF amplifier, a rough equivalent of the European EF95, and would be much more at home in an FM radio receiver or turret TV tuner from the 1950s. I can only assume that somewhere in China there’s a tube factory tooled up for radio tube production that is targeting this market, because another tube you will see in audio power amplifier kits is the FU32 or QQV03-20 in European parlance, a large power beam tetrode that might have been found in a 1950s military radio transmitter. Still just as if you were to use an RF transistor in an audio circuit it would give good account of itself, so it is with an RF tube. There is no reason a 6J1 won’t do an acceptable job in a circuit such as this one.

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A Tiny Jacob’s Ladder You Can Build At Home

August 29, 2020 by 13 Comments

Big fizzing electrical arcs are fun, and handled properly, not too dangerous either. The Jacob’s Ladder is one such piece of arc-generating equipment, one that featured heavily in vintage sci-fi films. It remains a charming demonstration of high-voltage electrical principles, and you can easily build your own mini version at home.

The build starts with a basic high-voltage step-up kit that turns 4V DC into 15 kV at the output. At this voltage level, it’s possible to generate an arc in air. To create the Jacob’s ladder, the kit is wired up to a pair of closely-spaced electrodes that slowly get farther apart as they go up vertically. When an arc jumps from one electrode to the other, it ionises the air, and the voltage sags due to the current flow. The flowing current heats up the air, which begins to rise, taking the current path with it, causing the familiar climbing arc we all know and love. As the distance between the electrodes increases towards the top, the arc can eventually no longer be sustained. With no current flowing, the voltage rises again, and a new arc forms at the bottom of the device, repeating the process.

It’s a fun build that would make an excellent desk toy, albeit best shown under glass to avoid accidental electric shocks. You can even build a larger one out of microwave parts if you’re so inclined. Video after the break.

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Unique LED Display Inspired By Fighter Jet Dashboard

August 22, 2020 by 6 Comments

Last year, [Mangy_Dog] was asked by a few friends to consult on a project they were working on. The goal was to build an authentic replica of an F-18 cockpit, apparently for the purposes of creating a film. The project never materialized, but it did inspire him to take a hard look at the 1970s era alphanumeric displays utilized in the real aircraft. One thing lead to another, and he ended up using his own take on the idea to build his own “starburst” digit display.

As [Mangy_Dog] explains, while the faces of these original displays might have been quite small, there was a lot going on behind the scenes. Due to the technical limitations of the time, each alphanumeric character was made up of an array of incandescent light bulbs and fiber optic cables. This worked well enough, but was bulky and complex to manufacture.

Today, we can do better, even on the hobbyist level. As it turns out, 0402 LEDs are just about the right size to recreate the segments of the original starburst displays. So [Mangy_Dog] came up with a simple PCB design to not only align the LEDs properly, but drive them with a 74HC595 shift register and an array of MOSFETs. While assembly wasn’t without its challenges, he made good use of his custom built reflow oven to get all the diminutive components in place.

He went through a few different ideas for the diffuser, but eventually settled on black plastic with tiny holes drilled through courtesy of his laser cutter. Behind each set of three holes is a small pocket that got filled from both sides with transparent UV resin, which was then sanded down after curing. The end result isn’t perfect as you can still tell the center dot is brighter than its peers, but the overall effect is still very nice and definitely has a sort of faux-retro appeal.

The military naturally has access to some incredible technology, though they have a tendency to hold onto it for decades. That an individual with a meager budget and homemade tools can improve upon a piece of hardware installed in a $60+ million airplane is a testament to just how fast things are moving.

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3D On The ZX Spectrum 48K

August 17, 2020 by 16 Comments

There are times when a project becomes such a big part of a maker’s life that they find themselves revisiting it even years later. [Thanassis] combined this phenomena with his love for the ZX Spectrum when he ported one of his old 3D rendering projects to the ZX Spectrum 48K. The video below shows the result, and they speak for themselves.

The roots of this project go back around three years, when [Thanassis] posted a similar project for the ATMega328 which employed fixed point math tricks for achieving the graphics. The code needed to be even tighter to run on the Spectrum, eventually getting boiled down to just a handful of calculations. This got the proof of concept working with the z88dk compiler, but it wasn’t quite fast enough.

In the end, hand assembly optimizations nearly doubled the performance to a blistering 10 frames per second. There’s also a version that kicks it all the way up to 40 FPS, but only if you give it a few minutes to do the calculations ahead of time. With a few teaks and the right display, this project could produce some very cool retro visuals.

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Pi Saves Vintage Mac Case From A Watery Grave

August 13, 2020 by 39 Comments

Like many before it, this Mac 512K case was originally slated to get turned into a kitschy desktop aquarium. But its owner never found the time to take on the project, and instead gave it to [Tony Landi]. Luckily, he decided to forgo the fish and instead outfit the case with a new LCD display and Raspberry Pi to emulate Mac OS 7.5.

Mounting the LCD and associated electronics.

In the video after the break, [Tony] walks viewers through the process of mounting the new components into the nearly 30+ year old enclosure. Things are naturally made a lot easier by the fact that the modern electronics take up a small fraction of the Mac’s internal volume. Essentially the only things inside the case are the 10 inch 4:3 LCD panel, the Raspberry Pi, and a small adapter that turns the Mac’s pre-ADB keyboard into standard USB HID.

[Tony] had to design a 3D printed adapter to mount the modern LCD panel to the Mac’s frame, and while he was at it, he also came up with printable dummy parts to fill in the various openings on the case that are no longer necessary. The mock power switch on the back and the static brightness adjustment knob up front are nice touches, and the STLs for those parts will certainly be helpful for others working on similar Mac conversions.

With the hardware out of the way, [Tony] switches gears and explains how he got the emulated Mac OS environment up and running on the Raspberry Pi. Again, even if you don’t exactly follow his lead on this project, his thorough walk-through on the subject is worth a watch for anyone who wants to mess around with Apple software from this era.

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Miniature Star Wars Arcade Lets You Blow Up The Death Star On The Go

August 12, 2020 by 10 Comments

If you have fond childhood memories of afternoons spent at the local arcade, then you’ve had the occasional daydream about tracking down one of those old cabinets and putting it in the living room. But the size, cost, and rarity of these machines makes actually owning one impractical for most people.

While this fully functional 1/4th scale replica of the classic Star Wars arcade game created by [Jamie McShan] might not be a perfect replacement for the original, there’s no denying it would be easier to fit through your front door. Nearly every aspect of the iconic 1983 machine has been carefully recreated, right down to a working coin slot that accepts miniature quarters. Frankly, the build would have been impressive enough had he only put in half the detail work, but we certainly aren’t complaining that he went the extra mile.

[Jamie] leaned heavily on resin 3D printed parts for this build, and for good reason. It’s hard to imagine how he could have produced some of the tiny working parts for his cabinet using traditional manufacturing techniques. The game’s signature control yoke and the coin acceptor mechanism are really incredible feats of miniaturization, and a testament to what’s possible at the DIY level with relatively affordable tools.

The cabinet itself is cut from MDF, using plans appropriately scaled down from the real thing. Inside you’ll find a Raspberry Pi 3 Model A+ running RetroPie attached directly to the back of a 4.3 inch LCD with integrated amplified speakers. [Jamie] is using an Arduino to handle interfacing with the optical coin detector and controls, which communicates with the Pi over USB HID. He’s even added in a pair of 3,000 mAh LiPo battery packs and a dedicated charge controller so you can blow up the Death Star on the go.

Still don’t think you can fit one in your apartment? Not to worry, back in 2012 we actually saw somebody recreate this same cabinet in just 1/6th scale.

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ESPFLIX Brings Streaming Video To The World Of Microcontrollers

August 11, 2020 by 9 Comments

These days, if you’ve got a TV that’s a little too old to directly access streaming services, you’ve got plenty of options. Apple TV, Chromecast, and a cavalcade of Android boxes are available to help get content on your screen. However, if you’re really stuck in the past, ESPFLIX might just be for you.

Control of the system is achieved by an Apple TV remote.

Yes, that’s right – it’s an online streaming service running on an ESP32. [rossumur] has achieved this feat through a careful use of codecs, and some efficient coding strategies to make it all come together. Video is MPEG1, at just 352×192 resolution. Audio is via the SBC codec, originally intended for use with Bluetooth devices. It’s chosen here for its tiny sample buffers, making it easier to decode in the limited RAM of the ESP32. Output is via composite video, generated on the ESP32 itself.

The titles themselves consist of public domain content, running off an Amazon Web Services instance. With limited RAM on the ESP32, there’s not much buffering to be had, so [rossumur] is bankrolling an AWS Cloudfront instance which should make it possible to use ESPFLIX from most places around the world with a solid internet connection.

We’ve seen [rossumur]’s work before, with the ESP_8_BIT serving as a prelude to this project’s capabilities. Video after the break.

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