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Not Quite 101 Uses For An ATX Power Supply

October 28, 2016 by 72 Comments

The PC power supply has been a standard of the junk box for the last couple of decades, and will probably continue to be for the foreseeable future. A product that is often built to a very high standard and which will give years of faithful service, yet which has a life of only a few years as the PC of which it is a part becomes obsolete. Over the decades it has evolved from the original PC and AT into ATX, supplying an ever-expanding range of voltage rails at increasing power levels. There have been multiple different revisions of the ATX power supply standard over the years, but they all share the same basic form factor.

So a pile of ATX supplies will probably feature in the lives of quite a few readers. Most of them will probably be old and obsolete versions of little use with today’s motherboards, so there they sit. Not small enough to ignore, yet Too Good To Throw Away. We’re going to take a look at them, try to work out what useful parts they contain, and see a few projects using them. Maybe this will provide some inspiration if you’re one of those readers with a pile of them seeking a purpose.

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BASIC Interpreter Hidden in ESP32 Silicon

October 27, 2016 by 88 Comments

We’ve been keeping up with the ongoing software developed for the ESP32 WiFi chip, and that means a lot of flashing, hooking up random wires, and rebooting. Along the way, we stumbled on an Easter egg: the ESP32 processor has a built-in BASIC interpreter to fall back on.

That’s a cool little hack to find, but we couldn’t find some crucial functions that would have made it a lot more useful. Still, it’s great fun to play around in real-time with the chip. And you’ll absolutely get an LED blinking faster in ESP32 BASIC than you will on an Arduino!

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A Short Introduction to Staking and Potting

October 27, 2016 by 43 Comments

Staking and potting are not often used in the hobby electronics world, not really entering to the common vernacular. However, everyone who’s ever busted out a glue-gun to convince that dang wire that keeps coming loose to stay has done it.

However, as [Sean Thomas] touches on, staking is not necessarily as easy as a dob of hot glue. There is a method to the madness. [Sean] gives some examples in pictures, but also directs people to the excellent NASA standard methods for staking. It’s surprising how many unintuitive caveats there are to the proper technique.

Potting, or covering everything in epoxy forever, is a great way to get a waterproof, unserviceable, and practically mechanically invincible circuit. The big challenge in potting is picking the right material. A soft silicone, for example, might transfer an unexpected force to an unexpected section of the circuit and cause a mechanical failure. A nice hard epoxy may be too insulating and cause a thermal failure. The standard RTV from the big box store has acetic acid that will eat your components.

These two techniques that come in handy when you need them and worth the bit of reading it takes to get familiar. Have you used either in your own workshop? Let us know the application and the material/techniques you have tried in the comments below.

One Home Made NES To Rule Them All

October 27, 2016 by 8 Comments

The Nintendo Entertainment System, or Famicom depending on where in the world you live, is a console that occupies a special place in the hearts of people of a certain age. If you lived in a country that Nintendo didn’t ship its consoles to in the late ’80s and early ’90s though, you might think that it would be an experience that would have passed you by. Eastern Europeans for instance didn’t officially meet Mario for years.

A Pegasus NES clone. Ktoso the Ryba [Public domain], via Wikimedia Commons.
A Pegasus NES clone. Ktoso the Ryba [Public domain], via Wikimedia Commons.
Fortunately for them there was an industry of Chinese and Taiwanese clone makers whose products were readily available in those markets. For the countries without official Nintendo products it is these consoles and their brand names that have achieved cult gaming status rather than the real thing.

In Poland, [phanick] wanted to recreate his youth by building his own clone console (Polish Language, English translation via Google Translate). His chosen target was the Pegasus, the Taiwanese NES clone that was the must-have console for early ’90s Poles.

But he wasn’t just satisfied with building a Pegasus clone. Along the way the project expanded to include support for 72-pin NES cartridges as well as the 60-pin Pegasus ones, and the ability to play both PAL and NTSC games. For this dual-system support he had to include both sets of processor and graphics chip variants, along with logic to switch between them. He goes into some detail on the tribulations of achieving this switch.

The result is a very impressive and well-executed piece of work. The PAL games have a letterbox effect with black bars at top and bottom of the screen, while the NTSC games have slightly washed-out colours. But if you were a gamer of the day you’ll see these as simply part of the genuine experience.

He’s posted a descriptive video which we’ve embedded below the break, but with non-English commentary. It is however still worth watching even without understanding the audio, for its view of the completed board and gameplay.

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An Open Source 96 MSPS Logic Analyzer For $22

October 26, 2016 by 66 Comments

If you are in the market for an inexpensive USB logic analyser you have a several choices, but few of them deliver much in the way of performance. There are kits from China for a few dollars using microcontrollers at their heart, but they fail to deliver significant sample rates. If you require more, you will have to pay for it.

It is therefore rather interesting to see [kevinhub88]’s SUMP2 project, an open source logic analyser with a claimed 96 MSPS sample rate using an off-the-shelf Lattice iCEstick FPGA evaluation board that only costs about $20. It talks to a host computer via USB using the established SUMP protocol, so its software front-end comes from the sump.org logic analyser project. Edit: Since this post was published [Kevin] has contacted us to inform us that the project’s capabilities have now moved beyond SUMP’s capabilities and in fact it now uses his own software.

This project has the promise to add a very useful piece of test equipment to the armoury of the engineer on a budget, and to aid the cost-conscious reader he’s provided extensive documentation and installation instructions, as well as the code for the FPGA. Thanks to one of the more awesome hacks of 2015, there is an entirely open toolchain for this Lattice part, and our own [Al Williams] has written up a multi-part getting-started guide if you want to get your feet wet. You probably want one of these anyway, and now it’s a logic analyzer to boot.

We’ve covered quite a few inexpensive home-produced digital instruments here over the years, including this logic analyser with a slightly higher price tag, this inexpensive VNA, and this oscilloscope board. Maybe one day the bench of our dreams will all come on one open-source PCB for $100, who knows!

Converting a TP Link Router to Mission Control for Cheap 433MHz Home Automation

October 26, 2016 by 9 Comments

[Jean-Christophe Rona] found himself with some free time and decided to finish a project he started two years ago, reverse engineering cheap 433MHz home automation equipment. He hopes to control his space heaters remotely, in preparation for a cold and, now, robotic winter.

In a previous life, he had reverse engineered the protocol these cheap wireless plugs, garage doors, and electric window shutters all use. This eventually resulted in a little library called rf-ctrl that can toggle and read GPIO pins in the correct way to control these objects. He has a few of the more popular protocols built into the library and even wrote a guide on how to do the reverse engineering yourself if you have need.

Having successfully interfaced with the plugs to use with his space heaters, [Jean-Christophe] went about converting a cheap TP Link router into a command center for them. Since TP Link never expected anyone to hammer their square peg into a mismatched hole, it takes a careful hand at soldering and some enamel wire to break out the GPIO pins, but it’s well within the average skill set.

The end result is a nicely contained blue box with a little antenna hanging out of it, and we hope, a warm abode for the coming winter.

Why You Should Own A Sewing Machine

October 26, 2016 by 107 Comments

This could probably be any of our grandmothers at work. George Grantham Bain Collection [PD], via Wikimedia Commons
This could probably be any of our grandmothers at work. George Grantham Bain Collection [PD], via Wikimedia Commons.
In our hackspace, we’ve opened a textile room in the last month. We have high hopes for it as a focal point for cosplayers and LARPers as well as the makers of wearable electronics and more traditional textile users. Putting it in has involved several months of hard work bringing a semi-derelict and previously flooded room that was once the walk-in safe for our local school authority to a point at which it is a light and welcoming space, but a surprising amount of work has also had to go into winning the hearts and minds of our community for the project.

Putting it quite simply, textiles aren’t seen as very cool, in hackspace terms. You know, Women’s stuff. Your mother does it, or even maybe if you are a little younger, your grandmother. It’s just not up there with laser cutting or 3D printing, and as a result those of us for whom it’s a big part of making stuff have had to fight its corner when it comes to resources within the space.

Yet not so long ago when I brought a pair of worn-out jeans into the space on a social night and hauled out our Lervia sewing machine to fix them, I had a constant stream of fellow members passing by amazed at what I was doing. “You can repair jeans?” they asked, incredulously. For some reason this prospect had not occurred to them, I was opening up a new vista in clothing reincarnation, to the extent that before too long in our new facility I may be giving a workshop on the subject as the beloved former trousers of Oxford Hackspace denizens gain a chance of new life.

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