The Nibbler Was Quite A Scamp

August 16, 2025 by Al Williams 26 Comments

The late 1970s were an interesting time for microcomputers. The rousing success of things like the 8080, the Z80, the 6800, and the 6502 made everyone wanted a piece of the action. National Semiconductor produced its SC/MP. That was technically the Simple Cost-effective Micro Processor, but it was commonly known as Scamp. There were several low-cost development boards built around this processor and [Hello World] is looking at Digikey’s “Nibbler” which was a fairly nice computer for only $150. Check it out in the video below.

The SC/MP was made to be cheap. It had a strange bank switching scheme reminiscent of the Microchip PIC 16F family. It also had, like a lot of old discrete computers, a serial ALU, which made it slower than many of its contemporaries. It did have good features, though. It was cheap and required very few extra parts along with a single 5 V supply in the second and subsequent versions. In addition, it had pins that were made for connecting more than one CPU, which was quite a feat for those days.

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Suggested Schematic Standards

August 15, 2025 by Al Williams 31 Comments

We often think that if a piece of software had the level of documentation you usually see for hardware, you wouldn’t think much of it. Sure, there are exceptions. Some hardware is beautifully documented, and poorly documented software is everywhere. [Graham Sutherland’s] been reviewing schematics and put together some notes on what makes a clean schematic.

Like coding standards, some of these are a bit subjective, but we thought it was all good advice. Of course, we’ve also violated some of them when we are in a hurry to get to a simulation.

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Teletext Around The World, Still

August 15, 2025 by Al Williams 17 Comments

When you mention Teletext or Videotex, you probably think of the 1970s British system, the well-known system in France, or the short-lived US attempt to launch the service. Before the Internet, there were all kinds of crazy ways to deliver customized information into people’s homes. Old-fashioned? Turns out Teletext is alive and well in many parts of the world, and [text-mode] has the story of both the past and the present with a global perspective.

The whole thing grew out of the desire to send closed caption text. In 1971, Philips developed a way to do that by using the vertical blanking interval that isn’t visible on a TV. Of course, there needed to be a standard, and since standards are such a good thing, the UK developed three different ones.

The TVs of the time weren’t exactly the high-resolution devices we think of these days, so the 1976 level one allowed for regular (but Latin) characters and an alternate set of blocky graphics you could show on an expansive 40×24 palette in glorious color as long as you think seven colors is glorious. Level 1.5 added characters the rest of the world might want, and this so-called “World System Teletext” is still the basis of many systems today. It was better, but still couldn’t handle the 134 characters in Vietnamese.

Meanwhile, the French also wanted in on the action and developed Antiope, which had more capabilities. The United States would, at least partially, adopt this standard as well. In fact, the US fragmented between both systems along with a third system out of Canada until they converged on AT&T’s PLP system, renamed as North American Presentation Layer Syntax or NAPLPS. The post makes the case that NAPLPS was built on both the Canadian and French systems.

That was in 1986, and the Internet was getting ready to turn all of these developments, like $200 million Canadian system, into a roaring dumpster fire. The French even abandoned their homegrown system in favor of the World System Teletext. The post says as of 2024, at least 15 countries still maintain teletext.

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Calibration, Good Old Calibration

August 14, 2025 by Al Williams 5 Comments

Do you calibrate your digital meters? Most of us don’t have the gear to do a proper calibration, but [Mike Wyatt] shares his simple way to calibrate his DMMs using a precision resistor coupled with a thermistor. The idea is to use a standard dual banana plug along with a 3D-printed housing to hold the simple electronics.

The calibration element is a precision resistor. But the assembly includes a 1% thermistor. In addition to the banana plugs, there are test points to access the resistor and another pair for the thermistor.

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DIY Wind Turbine Gets A 3-Phase Rectifier

August 14, 2025 by Al Williams 18 Comments

[Electronoobs] is using some brushless motors to make a DIY wind turbine. His recent video isn’t about the turbine itself, but a crucial electronic part: the three-phase rectifier. The reason it is so important is due to the use of brushless motors. Normal motors are not ideal for generating power for several reasons, as explained in the video below.

The brushless motors have three windings and generate three outputs, each out of phase with the others. You can’t just join them together because they are 120 degrees out of phase. But a special rectifier can merge the inputs efficiently and output a low-ripple DC voltage.

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For Americans Only: Estimating Celsius And Other Mental Metrics

August 14, 2025 by Al Williams 174 Comments

I know many computer languages, but I’ve struggled all my life to learn a second human language. One of my problems is that I can’t stop trying to translate in my head. Just like Morse code, you need to understand things directly, not translate. But you have to start somewhere. One of the reasons metric never caught on in the United States is that it is hard to do exact translations while you are developing intuition about just how hot is 35 °C or how long 8 cm is.

If you travel, temperature is especially annoying. When the local news tells you the temperature is going to be 28, it is hard to do the math in your head to decide if you need a coat or shorts.

Ok, you are a math whiz. And you have a phone with a calculator and, probably, a voice assistant. So you can do the right math, which is (9/5) x °C + 32. But for those of us who can’t do that in our heads, there is an easier way.

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3D Printing A Self-cleaning Water Filter

August 14, 2025 by Al Williams 21 Comments

No one likes cleaning out water spouts. [NeedItMakeIt] wanted to collect rainwater and was interested in using a Coanda filter that those used on hydroelectric plants to separate out debris. Ultimately, he decided to design his own and 3D print it.

The design uses a sloping surface with teeth on it to coax water to go in one direction and debris to go in another. It fits into a typical spout, and seems like it works well enough. Some commenters note that varying volumes of rain and different types of debris behave differently, which is probably true. However, there are similar commercial products, so you’d guess there would be some value to using the technique.

The water pushes the debris off the slope, so you end up losing a little water with the debris. So as always, there’s a trade-off. You can see in the video that if the water flow isn’t substantial, the debris tends to stall on the slope. Could the filter be improved? That was the point in trying a second design.

It wasn’t a big improvement. That’s where there’s a plot twist. Well, actually, a literal twist. Instead of making a flat slope, the new design is a conic shape with a spiral channel. That improved flow quite a bit. We weren’t clear from the video of exactly where the debris was going with the last version.

Usually, when we think of the Coanda effect, we are thinking aerodynamics. It can be quite uplifting.

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