Author: Dan Maloney

3368 Articles

Slap This Big Red Button For An Instant Social Media Detox

September 30, 2022 by 8 Comments

Dangerous machines, like ones that can quickly reduce you to a fine red mist or a smoking cinder, tend to have a Big Red Button™ to immediately stop whatever the threat is. Well, if a more dangerous machine than social media has ever been invented, we’re not sure what it would be, which is why we’re glad this social media kill switch exists.

The idea behind [Gunter Froman]’s creation is to provide a physical interface to SocialsDetox, a service that blocks or throttles connectivity to certain apps and websites. SocialDetox blocks access using either DNS over HTTPS (DoH) or, for particularly pesky and addictive apps, a service-specific VPN. The service does require a subscription, the cost of which varies by the number of devices you want to protect, but the charges honestly seem pretty reasonable.

While SocialsDetox can be set up to block access on a regular schedule, say if you want to make the family dinner a social-free time, there may be occasions where killing social access needs to happen right now. This is where the Big Red Button comes into it, which is attached to a Wemos D1 Mini. Pressing the kill switch sends an API request to either enable or disable the service, giving you a likely much-needed break from the swirling vortex of hate and envy that we all can’t seem to live without. Except for Hackaday, of course — it’s totally not like that here.

The irony of using an IoT appliance to restrict access to social media is not lost on us, but you work with the tools you’ve got. And besides, we like the physical interface here, which sort of reminds us this fitting enclosure for a PiHole.

A Look Inside An Old-School Synchroscope

September 28, 2022 by 7 Comments

There’s nothing quite like old-school electrical gear, especially the stuff associated with power distribution. There’s something about the chunky, heavy construction, the thick bakelite cases, and the dials you can read from across the room. Double points for something that started life behind the Iron Curtain, as this delightful synchroscope appears to have.

So what exactly is a synchroscope, you ask? As [DiodeGoneWild] explains (in the best accent a human being has ever had), synchroscopes are used to indicate when two AC power sources are in phase with each other. This is important in power generation and distribution, where it just wouldn’t be a good idea to just connect a freshly started generator to a stable power grid. This synchroscope has a wonderfully robust mechanism inside, with four drive coils located 90° apart on a circular stator. Inside that is a moving coil attached to the meter’s needle, which makes this an induction motor that stops turning when the two input currents are in phase with each other.

The meter is chock full of engineering goodies, like the magnetic brake that damps the needle, and the neat inductive coupling method used to provide current to the moving coil. [DiodeGoneWild] does a great job explaining how the meter works, and does a few basic tests that show us the 60-odd years since this thing was made haven’t caused any major damage. We’re eager to see it put to the full test soon.

This is just the latest in a series of cool teardowns by [DiodeGoneWild]. He recently treated us to a glimpse inside an old-ish wattmeter, and took a look at friggin’ laser-powered headlights, too.

Continue reading “A Look Inside An Old-School Synchroscope”

Mining And Refining: Sulfur

September 28, 2022 by 23 Comments

When you think of the periodic table, some elements just have a vibe to them that’s completely unscientific, but nonetheless undeniable. Precious metals like gold and silver are obvious examples, associated as they always have been with the wealth of kings. Copper and iron are sturdy working-class metals, each worthy of having entire ages of human industry named after them, with silicon now forming the backbone of our current Information Age. Carbon builds up the chemistry of life itself and fuels almost all human endeavors, and none of us would get very far without oxygen.

But what about sulfur? Nobody seems to think much about poor sulfur, and when they do it tends to be derogatory. Sulfur puts the stink in rotten eggs, threatens us when it spews from the mouths of volcanoes, and can become a deadly threat when used to make gunpowder. Sulfur seems like something more associated with the noxious processes and bleak factories of the early Industrial Revolution, not a component of our modern, high-technology world.

And yet despite its malodorous and low-tech reputation, there are actually few industrial processes that don’t depend on massive amounts of sulfur in some way. Sulfur is a critical ingredient in processes that form the foundation of almost all industry, so its production is usually a matter of national and economic security, which is odd considering that nearly all the sulfur we use is recovered from the waste of other industrial processes.

Continue reading “Mining And Refining: Sulfur”

A Solar-Powered Point-and-Shoot, Circa 1961

September 27, 2022 by 23 Comments

Try to put yourself in the place of an engineer tasked with building a camera in 1961. Your specs include making it easy to operate, giving it automatic exposure control, and, oh yeah — you can’t use batteries. How on Earth do you accomplish that? With a very clever mechanism powered by light, as it turns out.

This one comes to us from [Alec Watson] over at Technology Connections on YouTube, which is a channel you really need to check out if you enjoy diving into the minutiae of the mundane. The camera in question is an Olympus Pen EES-2, which was the Japanese company’s attempt at making a mass-market 35-mm camera. To say that the camera is “solar-powered” is a bit of a stretch, as [Alec] admits — the film advance and shutter mechanism are strictly mechanical, relying on springs and things to power them. It’s all pretty standard camera stuff.

But the exposure controls are where this camera gets interesting. The lens is surrounded by a ring-shaped selenium photocell, the voltage output of which depends on the amount of light in the scene you’re photographing. That voltage drives a moving-coil meter, which waggles a needle back and forth. A series of levers and cams reads the position of the needle, which determines how far the lens aperture is allowed to open. A clever two-step cam allows the camera to use two different shutter speeds, and there’s even a mechanism to prevent exposure if there’s just not enough light. And what about that cool split-frame exposure system?

For a camera with no electronics per se, it does an impressive job of automating nearly everything. And [Alec] does a great job of making it interesting, too, as he has in the past with a deep-dive into toasters, copy protection circa 1980, and his take on jukebox heroics.

Continue reading “A Solar-Powered Point-and-Shoot, Circa 1961”

Tiny Dongle Brings The Hard Drive’s Song Back To Updated Retrocomputers

September 26, 2022 by 28 Comments

Back in the “beige box” days of computing, it was pretty easy to tell what your machine was doing just by listening to it, because the hard drive was constantly thrashing the heads back and forth. It was sometimes annoying, but never as annoying as hearing the stream of Geiger counter-like clicks stop when you knew it wasn’t done loading a program yet.

That “happy sound” is getting harder to come by, even on retro machines, which increasingly have had their original thrash-o-matic drives replaced with compact flash and other solid-state drives. This HDD sound simulator aims to fill that diagnostic and nostalgic gap on any machine that isn’t quite clicky enough for you. Sadly, [Matthias Werner] provides no build details for his creation, but between the longish demo video below (by a satisfied customer) and the details of the first version, it’s easy enough to figure out what’s going on here. An ATtiny and a few support components ride on a small PCB along with a piezoelectric speaker. The dongle connects to the hard drive activity light, which triggers a series of clicks from the speaker that sound remarkably like a hard drive heading seeking tracks. A demo starts at 7:09 in the video below; the very brave — or very nostalgic — might want to check out the full defragmentation that starts at 13:11.

Sure, this one is perhaps a bit over-the-top, but in the retrocomputing world, no price is too high to pay in the name of nostalgia. And it’s still far from the most ridiculous hard drive activity indicator we’ve seen.

Continue reading “Tiny Dongle Brings The Hard Drive’s Song Back To Updated Retrocomputers”

Reverse Engineering Hack Chat With Matthew Alt

September 26, 2022 by 1 Comment

Join us on Wednesday, September 28 at noon Pacific for the Reverse Engineering Hack Chat with Matthew Alt!

Our world is full of mysteries, from the nature of time to how exactly magnets work. There are some things that we just have to accept that no matter how hard we look, we’ll never get a complete answer, especially in the natural world. The constructed world is another thing, though. It doesn’t seem fair that only a relatively few people have the inside scoop on the workings of everyday things, like network routers, game consoles, and even the vehicles we drive. Of course, the companies that make these things have a right to profit from their intellectual property, but we as consumers also have a right to be curious about how these things work and to understand what the software running on these devices is doing on our behalf.

join-hack-chatLuckily, what can be engineered can be reverse engineered, if you have the right tools and the skills to use them. It can be a challenge, but it’s one Matthew Alt has taken on plenty of times. We’ve seen him deep-dive into JTAG, look at serial wire debugging, and recently even try some glitching attacks. In fact, he even taught a HackadayU course on reverse engineering with Ghidra. And now he’ll drop by the Hack Chat to talk all about reverse engineering. Join us with your questions, your exploits, and your ideas on how to go where no hacker has gone before.

Our Hack Chats are live community events in the Hackaday.io Hack Chat group messaging. This week we’ll be sitting down on Wednesday, September 28 at 12:00 PM Pacific time. If time zones have you tied up, we have a handy time zone converter.

This Found-Sound Organ Was Made With Python And A Laser Cutter

September 25, 2022 by 17 Comments

Some readers will no doubt remember attaching a playing card to the front fork of their bicycle so that the spokes flapped the card as the wheel rotated. It was supposed to sound like a motorcycle, which it didn’t, but it was good, clean fun with the bonus of making us even more annoying to the neighborhood retirees than the normal baseline, which was already pretty high.

[Garett Morrison]’s “Click Wheel Organ” works on much the same principle as a card in the spokes, only with far more wheels, and with much more musicality. The organ consists of a separate toothed wheel for each note, all turning on a common shaft. Each wheel is laser-cut from thin plywood, with a series of fine teeth on its outer circumference. The number of teeth, as calculated by a Python script, determines the pitch of the sound made when a thin reed is pressed against the spinning wheel. Since the ratio of teeth between the wheels is fixed, all the notes stay in tune relative to each other, as long as the speed of the wheels stays constant.

The proof-of-concept in the video below shows that speed control isn’t quite there yet — playing multiple notes at the same time seems to increase drag enough to slow the wheels down and lower the pitch for all the notes. There appears to be a photointerrupter on the wheel shaft to monitor speed, so we’d imagine a PID loop to control motor speed might help. That and a bigger motor that won’t bog down as easily. As for the sound, we’ll just say that it certainly is unique — and, that it seems like something [Nicolas Bras] would really dig.

Continue reading “This Found-Sound Organ Was Made With Python And A Laser Cutter”