classic hacks

2639 Articles

A Simple Liquid Level Indicator With A Single IC

July 25, 2024 by 14 Comments

Often, the only liquid level indicator you need is your eyes, such as when looking at your cold beverage on a summer’s day. Other times, though, it’s useful to have some kind of indicator light that can tell you the same. [Hulk] shows us how to build one for a water tank using a single IC and some cheap supporting components.

If you’re unfamiliar with the ULN2003, it’s a simple Darlington transistor array with seven transistors inside. It can thus be used to switch seven LEDs without a lot of trouble. In this case, green, yellow, and red LEDs were hooked up to the outputs of the transistors in the ULN2003. Meanwhile, the base of each transistor is connected to an electrode placed at a different height in the water tank. A further positive electrode is placed in the tank connected to 12 volts. As the water raises to the height of each electrode, current flow from the base to the positive electrode switches the corresponding transistor on, and the LED in turn. Thus, you have a useful liquid level indicator with seven distinct output levels.

It’s a neat build that might prove useful if you need to check levels in a big opaque tank at a glance. Just note that it might need some maintenance over time, as the electrodes are unlikely to remain completely corrosion free if left in water. We’ve seen some other great uses of the ULN2003 before, too. Video after the break.

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Need A Tube? Reach For Plywood!

July 23, 2024 by 14 Comments

To be clear, when we are talking about tubes, we mean ordinary cylinders, not vacuum-amplifying elements. With that out of the way, when we need a tube like that, we usually think of PVC or some other kind of pipe product. Or maybe we’ll 3D print what we need. But not [GregO29]. He made his tubes from plywood.

You can make tubes as small as 12 inches in diameter, and [GregO29] made some that were 16 inches. The first step was to make a mold or form. In this case, he elected to make a form that the tube-to-be wraps around. The plywood is thin 2-ply white birch. This makes it easy to shape.

The basic idea is to wrap the wood around the form and glue it. You hold it together with a strap until it dries. Then, you can add more layers until it is the thickness you need.

The real problem turned out to be removing the form once it was done. Why make a tube like this? In [Greg]’s case, he’s building a telescope, which is as good a reason as any to have a tube, we suppose.

We build a lot of things, but we always forget about plywood. It even mixes well with electricity.

Making A Solid State 6AK8 Tube

July 22, 2024 by 13 Comments

[M Caldeira] had a project in mind: replacing a common vacuum tube with a solid-state equivalent. The tube in question was an EABC80 or 6AK8 triple diode triode. The key was identifying a high-voltage FET and building it, along with some other components, into a tube base to make a plug-in replacement for the tube. You can see a video about the project below.

These tubes are often used as a detector and preamplifier. Removing the detector tube from a working radio, of course, kills the audio. Replacing the tube with a single diode restores the operation of the radio, although at a disadvantage.

From there, he adds more diodes directly into the socket. Of course, diodes don’t amplify, so he had to break out a LND150 MOSFET with a limit of 500 volts across the device. It takes some additional components, and the whole thing fits in a tube base ready for the socket.

Usually, we see people go the other way using tubes instead of transistors in, say, a computer. If you want real hacking, why not make your own tubes?

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Ask Hackaday: Should We Teach BASIC?

July 21, 2024 by 183 Comments

Suppose you decide you want to become a novelist. You enroll in the Hackaday Famous Novelists School where your instructor announces that since all truly great novels are written in Russian, our first task will be to learn Russian. You’d probably get up and leave. The truth is, what makes a great (or bad) novel transcends any particular language, and you could make the same argument for programming languages.

Despite the pundits, understanding the basics of how computers work is more important than knowing C, Java, or the language of the week. A recent post by [lackofimagination] proposes that we should teach programming using BASIC. And not a modern whizz-pow BASIC, but old-fashioned regular BASIC as we might have used it in the 1980s.

Certainly, a whole generation of programmers cut their teeth on BASIC. On the other hand, the programming world has changed a lot since then. While you can sort of apply functional and object-oriented techniques to any programming language, it isn’t simple and the details often get in the way of the core ideas.

Still, some things don’t change. The idea of variables, program flow, loops, and arrays all have some parallel in just about anything, so we can see some advantages to starting out simply. After all, you don’t learn to drive by trying it out in the Indy 500, right?

What do you think? If you were teaching programming today, would you start with BASIC? Or with something else? You can modernize a little bit with QB64. Or try EndBasic which just recently had a new release.

How Ten Turn Pots Are Made

July 19, 2024 by 5 Comments

It is easy to think of a potentiometer as a simple device, but there are many nuances. For example, some pots are linear — a change of a few degrees at the low end will change the resistance the same amount as the same few degrees at the high end. Others are logarithmic. Changes at one end of the scale are more dramatic than at the other end of the scale. But for very precise use, you often turn to the infamous ten-turn pot. Here, one rotation of the knob is only a tenth of the entire range. [Thomas] shows us what’s inside a typical one in the video below.

When you need a precise measurement, such as in a bridge instrument, these pots are indispensable. [Thomas] had a broken one and took that opportunity to peer inside. The resistor part is a coil of wire wound around the inside of the round body. Unsurprisingly, there are ten turns of wire that make up the coil.

The business end, of course, is in the rotating part attached to the knob. A small shuttle moves up and down the shaft, making contact with the resistance wire and a contact for the wiper. The solution is completely mechanical and dead simple.

As [Thomas] notes, these are usually expensive, but you can  — of course — build your own. These are nice for doing fine adjustments with precision power supplies, too.

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A Nostalgic Look At A Kid’s Shortwave Receiver

July 18, 2024 by 10 Comments

[Mikrowave1] had a Unelco shortwave receiver as a kid. This was a typical simple radio for the 1960s using germanium and silicon transistors. It also had plug-in coils you had to insert into sockets depending on the frequency band you wanted to receive.

While simple AM radios were all the rage, they didn’t have to operate at higher frequencies. [Mikrowave1] shows some of the design tricks used to allow the radio to operate in the upper part of the spectrum. Otherwise, the radio is the usual superhet design using lower frequency germanium PNP transistors in the IF stage. You get a look inside the radio and a peek at a similar schematic along with notes on where the radio is different.

But how does it work? For an old single-conversion receiver, it works well enough. Of course, when the radio was new, there were many more interesting stations on shortwave. Today, he had to settle for some ham radio stations and CHU, the Canadian time and frequency station.

There were six pairs of coils built on top of tube sockets. The coil was actually more than a coil. There were other components in the case that adjusted other radio parameters based on the frequency.

[Mikrowave1] has been on a toy kick lately, and we’ve enjoyed it. This radio looks simple compared to the Radio Shack one that every kid wanted in the 1970s. Well. Every hacker kid, at least.

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Supercon 2023: Bringing Arcade Classics To New Hardware

July 18, 2024 by 8 Comments

The processing power of modern game consoles is absolutely staggering when compared to the coin-op arcade machines of the early 1980s. Packed with terabytes of internal storage and gigabytes of RAM, there’s hardly a comparison to make with the Z80 cabinets that ran classics like Pac-Man. But despite being designed to pump out lifelike 4K imagery without breaking a virtual sweat, occasionally even these cutting-edge consoles are tasked with running one of those iconic early games like Dig Dug or Pole Position. Nostalgia is a hell of a drug…

As long as there are still demand for these genre-defining games, developers will have to keep figuring out ways to bring them to newer — and vastly more complex — systems. Which is precisely the topic of Bob Hickman’s 2023 Supercon talk, The Bits and Bytes of Bringing Arcade Classics to Game Consoles. Having spent decades as a professional game developer, he’s got plenty of experience with the unique constraints presented by both consoles and handhelds, and what it takes to get old code running on new silicon.

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