Author: Dan Maloney

3373 Articles

The Many Methods Of Communicating With Submarines

July 15, 2020 by 36 Comments

It sometimes seems hard to believe that we humans have managed to explore so little of what we have so much of: the seas. Oceans cover something like 70 percent of the world’s surface, but we’ve only mapped 20 percent of the ocean floor. The 228,000 ocean-dwelling species that we know about represents about ten percent of the estimated total aquatic species. And almost all the life we know about, and the area that we’ve explored thoroughly, is limited to the first few hundred meters from the surface.

The paucity of our deep-water investigatory efforts has a lot to do with the hostility of the sea to those who haven’t evolved to survive in it. It takes extreme engineering and fantastically expensive machines to live and work even a few meters down, and even then submariners quickly become completely isolated from the rest of the world once they’re down there. Underwater communication is particularly challenging, since the properties of seawater confound efforts to use it as a communications medium.

Challenging though it may be, underwater communication is possible, and in this article we’ll take a look at a few modalities that have made operating under the sea possible, and a new technology that might just extend the Internet below the waves.

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High-End Ham Radio Gives Up Its Firmware Secrets

July 14, 2020 by 46 Comments

Amateur radio operators have always been at the top of their game when they’ve been hacking radios. A ham license gives you permission to open up a radio and modify it, or even to build a radio from scratch. True, as technology has advanced the opportunities for old school radio hacking have diminished, but that doesn’t mean that the new computerized radios aren’t vulnerable to the diligent ham’s tender ministrations.

A case in point: the Kenwood TH-D74A’s firmware has been dumped and partially decoded. A somewhat informal collaboration between [Hash (AG5OW)] and [Travis Goodspeed (KK4VCZ)], the process that started with [Hash]’s teardown of his radio, seen in the video below. The radio, a tri-band handy talkie with capabilities miles beyond even the most complex of the cheap imports and with a price tag to match, had a serial port and JTAG connector. A JTAGulator allowed him to probe some of the secrets, but a full exploration required spending $140 on a spare PCB for the radio and some deft work removing the BGA-packaged Flash ROM and dumping its image to disk.

[Travis] picked up the analysis from there. He found three programs within the image, including the radio’s firmware and a bunch of strings used in the radio’s UI, in both English and Japanese. The work is far from complete, but the foundation is there for further exploration and potential future firmware patches to give the radio a different feature set.

This is a great case study in reverse engineering, and it’s really worth a trip down the rabbit hole to learn more. If you’re looking for a more formal exploration of reverse engineering, you could do a lot worse than HackadayU’s “Reverse Engineering with Ghidra” course, which just wrapping up. Watch for the class videos soon. Continue reading “High-End Ham Radio Gives Up Its Firmware Secrets”

A Robotic Stylist For Your Lockdown Lengthened Locks

July 14, 2020 by 19 Comments

It’s perhaps easy to think that despite the rapid acceleration of technology that there are certain jobs that will never be automated out of existence. Generally the job said to be robot-proof is the one held by the person making the proclamation, we notice. But certainly the job of cutting and styling people’s hair could never be done by a robot, right?

We wouldn’t bet the farm on it, although judging by [Shane Wighton]’s quarantine haircut robot, it’ll be a while before the stylists of the world will be on the dole. Said to have sprung from the need to trim his boyishly long hair, the contraption is an object lesson recreating the subtle manual skills a stylist brings to every head they work on — there’s a reason it takes 1,500 hours or more of training to get a license, after all. [Shane] discovered this early, and realized that exactly replicating the manual dexterity of human hands was a non-starter. His cutting head uses a vacuum to stand the hair upright, 3D-printed fingers to grip a small bundle of hair, and servo-driven scissors to cut it to length. The angle of attack of the scissors can be adjusted through multiple axes, and the entire thing rotates on a hell-no-I’m-not-putting-my-head-in-that-thing mechanism.

To his great credit, [Shane] braved the machine as customer zero, after only a few non-conclusive life-safety tests with a dummy head and wig. We won’t spoil the ending, but suffice it to say that the thing actually worked with no bloodshed and only minimal damage to [Shane]’s style. The long-suffering [Mrs. Wighton], however, was not convinced to take a test drive.

In all seriousness, kudos to [Shane] for attacking such a complex problem. We love what he’s doing with his builds, like his basketball catcher and his robo-golf club, and we’re looking forward to more.

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Back To Basics Hack Chat

July 13, 2020 by 24 Comments

Join us on Wednesday, July 15 at noon Pacific for the Back to Basics Hack Chat with Simplifier!

Stay in the technology business long enough and eventually you’ll have to face an uncomfortable question: “Have I built anything permanent?” Chances are good that most of us will have to answer in the negative. For all the flash and zazzle we put into our projects, and for all the craftsmanship we try to apply to our systems, all of it is built on a very fragile foundation of silicon that will be obsolete within a decade, held together by slender threads of code in a language that may or may not be in fashion in a year’s time, and doesn’t even really exist in anything more tangible than a series of magnetic domains on a hard drive somewhere.

Realizing you’ve built nothing permanent is the engineer’s equivalent of a midlife crisis, and for many of us it sets off a search for an outlet for our creativity that we can use to make things that will outlast us. One hacker, known only as “Simplifier”, turned his search for meaningful expression into a quest to make technology better by making it more accessible and understandable. His website, itself a model of simplicity, catalogs his quest for useful materials and methods and his efforts to employ them. He has built everything from homebrew vacuum tubes to DIY solar cells, with recent forays into telecom tech with his carbon rod microphone and magnetostrictive earphone.

In this Hack Chat, Simplifier will answer your questions about how turning back the technology clock can teach us about where we’re going. Join us as we explore what it takes to build the infrastructure we all take so much for granted, and find out if there’s a way to live simply while still enjoying a technologically rich life.

join-hack-chatOur Hack Chats are live community events in the Hackaday.io Hack Chat group messaging. This week we’ll be sitting down on Wednesday, July 15 at 12:00 PM Pacific time. If time zones have you down, we have a handy time zone converter.

Click that speech bubble to the right, and you’ll be taken directly to the Hack Chat group on Hackaday.io. You don’t have to wait until Wednesday; join whenever you want and you can see what the community is talking about.

 

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500 Lasers Are Not Necessarily Better Than One, But They Look Great

July 13, 2020 by 29 Comments

If playing with but a single laser pointer is fun, then playing with 500 laser pointers must be 500 times the fun, right? So by extension, training 500 laser pointers on a single point must be the pinnacle of pointless mirth. And indeed it is.

When we first spotted this project, we thought for sure it was yet another case of lockdown-induced  boredom producing an over-the-top build. Mind you, we have no problem with that, but in this case, [nanoslavic] relates that this is actually a project from a few years back. It’s really as simple as it looks: 500 laser pointer modules arranged on a plate with a grid of holes in a 25 by 20 array. As he placed the laser modules on the board with a glob of hot glue, he carefully aimed each one to hit a single point about a meter and a half away.  There are also a handful of blue LEDs nestled into the array, because what project is complete without blue LEDs?

The modules are wired in concentric circuits and controlled by a simple bank of toggle switches. Alas, 500 converging 150-mW 5 mW lasers do not a 75-W 2.5 W laser make; when fully powered, the effect at the focal point is reported to be only a bit warm. But it looks incredible, especially through smoke. Throwing mirrors and lenses into the beam results in some interesting patterns, too.

You’ll still need to take safety seriously if you build something like this, of course, but this one is really just for show. If you’re really serious about doing some damage with lasers, check out the long list of inadvisable laser builds that [Styropyro] has accumulated — from a high-powered “lightsaber” to a 200-Watt laser bazooka.

(Terminate your beams carefully, folks. We don’t want anyone going blind.)

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Hackaday Links: July 12, 2020

July 12, 2020 by 30 Comments

Based in the US as Hackaday is, it’s easy to overload the news with stories from home. That’s particularly true with dark tales of the expanding surveillance state, which seem to just get worse here on a daily basis. So we’re not exactly sure how we feel to share not one but two international stories of a dystopian bent; one the one hand, pleased that it’s not us for a change, but on the other, sad to see the trend toward less freedom and more monitoring spreading.

The first story comes from Mexico, where apparently everything our community does will soon be illegal. We couch that statement because the analysis is based on Google translations of reports from Mexico, possibly masking the linguistic nuances that undergird legislative prose. So we did some digging and it indeed appears that the Mexican Senate approved a package of reforms to existing federal copyright laws that will make it illegal to do things like installing a non-OEM operating system on a PC, or to use non-branded ink cartridges in a printer. Reverse engineering ROMs will be right out too, making any meaningful security research illegal. There appear to be exceptions to the law, but those are mostly to the benefit of the Mexican government for “national security purposes.” It’ll be a sad day indeed for Mexican hackers if this law is passed.

The other story comes from Germany, where a proposed law would grant sweeping surveillance powers to 19 state intelligence bodies. The law would require ISPs to install hardware in their data centers that would allow law enforcement to receive data and potentially modify it before sending it on to where it was supposed to go. So German Internet users can look forward to state-sponsored man-in-the-middle attacks and trojan injections if this thing passes.

OK, time for a palate cleanser: take an hour to watch a time-lapse of the last decade of activity of our star. NASA put the film together from data sent back by the Solar Dynamics Observatory, a satellite that has been keeping an eye on the Sun from geosynchronous orbit since 2010. Each frame of the film is one hour of solar activity, which may sound like it would be boring to watch, but it’s actually quite interesting and very relaxing. There are exciting moments, too, like enormous solar eruptions and the beautiful but somehow terrifying lunar transits. More terrifying still is a massive coronal mass ejection (CME) captured in June 2011. A more subtle but fascinating phenomenon is the gradual decrease in the number of sunspots over the decade as the Sun goes through its normal eleven-year cycle.

You’ll recall that as a public service to our more gear-headed readers that we recently covered the recall of automotive jack stands sold at Harbor Freight, purveyor of discount tools in the USA. Parts for the jack stands in question had been cast with a degraded mold, making the pawls liable to kick out under load and drop the vehicle, with potentially catastrophic results for anyone working beneath. To their credit, Harbor Freight responded immediately and replaced tons of stands with a new version. But now, Harbor Freight is forced to recall the replacement stands as well, due to a welding error. It’s an embarrassment, to be sure, but to make it as right as possible, Harbor Freight is now accepting any of their brand jack stands for refund or store credit.

And finally, if you thought that the experience of buying a new car couldn’t be any more miserable, wait till you have to pay to use the windshield wipers. Exaggeration? Perhaps only slightly, now that BMW “is planning to move some features of its new cars to a subscription model.” Plans like that are common enough as cars get increasingly complex infotainment systems, or with vehicles like Teslas which can be upgraded remotely. But BMW is actually planning on making options such as heated seats and adaptive cruise control available only by subscription — try it out for a month and if you like it, pay to keep them on for a year. It would aggravate us to no end knowing that the hardware supporting these features had already been installed and were just being held ransom by software. Sounds like a perfect job for a hacker — just not one in Mexico.

Vintage Instrument Gets Modern Replacement For Unobtainium Parts

July 10, 2020 by 13 Comments

One of the best parts about Hackaday is how much you learn from the projects that people tackle, especially when they are repairs on old gear with unknown failure modes and potentially multiple problems. By the same token, the worst part about Hackaday is seeing what other people are capable of and knowing that you’ve got a long way to go to catch up to them.

A case in point is [Curious Marc]’s recent repair of an old pulse generator. The instrument in question is an H-P 8082A, a device from a time when H-P was a place where “good engineers managed by even better engineers [wanted] to help other engineers,” as [Marc] so eloquently puts it. The instrument was capable of 250 MHz output with complete control over the amplitude, frequency, duty cycle, and rising and falling edge geometry of the pulses, in addition to being able to output double pulses. For an all-analog instrument made in 1974, it was in decent shape, and it still powered up and produced at least the square wave output. But [Marc]’s exploration revealed a few problems, which are detailed and partially addressed in the first video below.

In part two [Marc] goes after the problem behind the pulse delay function. He traced it to a bad IC, which was bad news since it was a custom H-P part using emitter-coupled logic (ECL) to achieve the needed performance that can no longer be sourced. So naturally, [Marc] decided to replace the chip with a custom circuit. The design and simulation of the circuit are detailed in part two, while the non-trivial details of designing a PCB to handle the high-speed signals take up most of part three. We found the details on getting the trace impedance just right fascinating.

In the end, [Marc]’s pulse generator was salvaged. It’ll go into service helping him probe the mysteries of vintage electronics from the Apollo era, so we’re looking forward to seeing more about this great old instrument.

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