Teardown: D50761 Aircraft Quick Access Recorder

October 15, 2018 by Tom Nardi 32 Comments

Everyone’s heard of the “black box”. Officially known as the Flight Data Recorder (FDR), it’s a mandatory piece of equipment on commercial aircraft. The FDR is instrumental in investigating incidents or crashes, and is specifically designed to survive should the aircraft be destroyed. The search for the so-called “black box” often dominates the news cycle after the loss of a commercial aircraft; as finding it will almost certainly be necessary to determine the true cause of the accident. What you probably haven’t heard of is a Quick Access Recorder (QAR).

While it’s the best known, the FDR is not the only type of recording device used in aviation. The QAR could be thought of as the non-emergency alternative to the FDR. While retrieving data from the FDR usually means the worst has happened, the QAR is specifically designed to facilitate easy and regular access to flight data for research and maintenance purposes. Its data is stored on removable media and since the QAR is not expected to survive the loss of the aircraft it isn’t physically hardened. In fact, modern aircraft often use consumer-grade technology such as Compact Flash cards and USB flash drives as storage media in their QAR.

Through the wonders of eBay, I recently acquired a vintage Penny & Giles D50761 Quick Access Recorder. This was pulled out of an aircraft which had been in service with the now defunct airline, Air Toulouse International. Let’s crack open this relatively obscure piece of equipment and see just what goes into the hardware that airlines trust to help ensure their multi-million dollar aircraft are operating in peak condition.

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Hackaday Links: October 14, 2018

October 14, 2018 by Brian Benchoff 14 Comments

Here’s something of interest of 3D printing enthusiasts. How do you print lightweight 3D objects? [Tom Stanton] does a lot of stuff with 3D printing and RC airplanes, so yeah, he’s probably the guy you want to talk to. His solution is Simplify3D, printing two layers for whatever nozzle diameter you have, some skills with Fusion360, and some interesting design features that include integrated ribs.

Moog released their first polyphonic analog synth in 35 years. It’s massive, and it costs eight thousand dollars.

There’s a RISC-V contest, sponsored by Google, Antmicro, and Microchip. The goal is to encourage designers to create innovative FPGA and soft CPU implementations with the RISC-V ISA. There are four categories, the smallest implementation for SpartFusion2 or IGLOO2 boards, and the smallest implementation that fits on an iCE40 UltraPlus board. The two additional categories are the highest performance implementation for these boards. The prize is $6k.

” I heard about polarization filters and now I’m getting a hundred thousand dollars” — some moron. IRL Glasses are glasses that block screens. When you wear them, you can’t watch TV. This is great, as now all advertising is on TVs for some inexplicable reason, and gives these people an excuse to use frames from John Carpenter’s masterpiece They Live in their Kickstarter campaign. Question time: why don’t all polarized sunglasses do this. Because there’s a difference between linear and circular polarized lenses. Question: there have been linear polarized sunglasses sitting in the trash since the release of James Cameron’s Avatar. Why now? No idea.

Alexa is on the ESP32. Espressif released their Alexa SDK that supports conversations, music and audio serivces (Alexa, play Despacito), and alarms. The supported hardware is physically quite large, but it can be extended to other ESP32-based platforms that have SPI RAM.

Retrotechtacular: Robots and Bowling Pins

October 12, 2018 by Mike Szczys 11 Comments

On a recent bowling excursion it occurred to us that this is one of the most advanced robotics systems most Americans will directly interact with. That’s a bold claim today, but certainly one that was correct decades ago. Let’s take a stroll back to 1963 for a look at the state of the art in bowling at the time, the AMF automatic pinspotter.

With their basis in industrial automation, bowling was a perfect problem for the American Machine and Foundry company (AMF) to take on. Their business began at the turn of the 20th century with automated cigarette manufacturing before turning their sights on bowling pins after the second world war. The challenge involves more than you might think as pinspotters are confined to a narrow area and need to work with oddly-shaped pins, the bowling ball itself, and deal with setting up fresh frames but also clearing out the field after the first roll.

Separating the ball from the pins is handled by gravity and an oscillating plunger that pushes errant pins back onto a conveyor. That conveyor stretches the width of the lane and moves pins back to a pin elevator — a wheel moving perpendicular to the ground with orients and raises them to a swiveling conveyor belt that can drop them into the setting jig waiting for the next full frame setup.

Everything in this promo video has jargon which is just delightful. We especially enjoyed the non-mechanical mention of how the machine “clears dead wood from the pin deck”. We could watch this kind of automation all day, and in fact found some other gems while searching about. Here’s a more recent look a the AMF 82-70 (the same model as in the promo video). We also wondered about manual pinspotting and found this manual-with-mechanical-assist setup to be interesting despite the audio.

Much to our surprise we’ve featured AMF in a Retrotectacular article before. Once their bowling automation started to take off, they set their sights on restaurant automation. Looks like Brian Benchoff’s visit to the robo-hamburger joint was actually a retro experience!

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The 555 and How It Got That Way

October 10, 2018 by Dan Maloney 114 Comments

There’s a certain minimum set of stuff the typical Hackaday reader is likely to have within arm’s reach any time he or she is in the shop. Soldering station? Probably. Oscilloscope? Maybe. Multimeter? Quite likely. But there’s one thing so basic, something without which countless numbers of projects would be much more difficult to complete, that a shop without one or a dozen copies is almost unthinkable. It’s the humble 555 timer chip, a tiny chunk of black plastic with eight leads that in concert with just a few extra components can do everything from flashing an LED a couple of times a second to creating music and sound effects.

We’ve taken a look under the hood of the 555 before and featured many, many projects that show off the venerable chip’s multiple personalities quite well. But we haven’t looked at how Everyone’s First Chip came into being, and what inspired its design. Here’s the story of the 555 and how it got that way.

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Friday Hack Chat: FPGA Bootcamp

October 10, 2018 by Brian Benchoff No comments

For this week’s Hack Chat, we’re going to be talking all about FPGAs, with our own resident FPGA expert.

This summer, Hackaday.io launched FPGA bootcamps, simple, easy-to-follow tutorials that will get you up and running with Verilog. These were all done by Al Williams, Hackaday’s resident FPGA hacker. Al’s an electrical engineer, author of over thirty books, countless magazine articles, and thousands of blog posts. He’s been an amateur radio operator for 41 years, and his first computer used an 1802 chip.

Now Al is putting a little bit of his wisdom over on Hackaday.io. He’s written up a bunch of tutorials that will get you started in programmable digital logic. Everything from a refresher on the ins and outs of nands and nors. a short introduction to Verilog, moving into sequential logic, to putting that code on real FPGA hardware is already up, and this bootcamp isn’t done yet.

If you want to get started in FPGA design, Al’s the guy you want to talk to. During this Hack chat, you’ll be able to ask questions about FPGAs, and about what’s coming up in future bootcamps. We’ll also be talking about Al’s other projects that you might see on Hackaday in the future, like the embedded logic analyzer, his IceStorm workflow, and much more.

During this Hack Chat, we’re going to be talking about:

How to use the FPGA tutorials
What other FPGAs you can use the tutorials for and how
Other Hackaday Bootcamp topics — FPGA or otherwise — that you’d like to see.

You are, of course, encouraged to add your own questions to the discussion. You can do that by leaving a comment on the FPGA Bootcamp Hack Chat and we’ll put that in the queue for the Hack Chat discussion.

Our Hack Chats are live community events on the Hackaday.io Hack Chat group messaging. This week we’ll be sitting down on Friday, October 12th, at noon, Pacific time. If time zones got 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 Friday; join whenever you want and you can see what the community is talking about.

This Year’s Nobel Prizes Are Straight Out Of Science Fiction

October 10, 2018 by Steven Dufresne 22 Comments

In the 1966 science fiction movie Fantastic Voyage, medical personnel are shrunken to the size of microbes to enter a scientist’s body to perform brain surgery. Due to the work of this year’s winners of the Nobel Prize in Physics, laser tools now do work at this scale.

Arthur Ashkin won for his development of optical tweezers that use a laser to grip and manipulate objects as small a molecule. And Gérard Mourou and Donna Strickland won for coming up with a way to produce ultra-short laser pulses at a high-intensity, used now for performing millions of corrective laser eye surgeries every year.

Here is a look at these inventions, their inventors, and the applications which made them important enough to win a Nobel.

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A Funny Thing Happened on Ada Lovelace Day…

October 9, 2018 by Elliot Williams 43 Comments

Today is Ada Lovelace Day, a day to celebrate and encourage women in the fields of science and technology. The day is named after “Augusta Ada King-Noel, Countess of Lovelace, born Byron”, or Lady Ada Lovelace for short. You can read up more on her life and contribution to computer science at Wikipedia, for instance.

But it’s not really fair to half of the world’s population to dedicate just one day to observing the contributions of female scientists and then lavish all the laurels solely on Lovelace. So last year, the day after Ada Lovelace day, Brian Benchoff sent an internal e-mail at Hackaday HQ suggesting we tell the stories of other women in science. We put our heads together and came up with a couple dozen leads so quickly, it was clear that we were on to something good.

From a writer’s perspective, the stories of women in science are particularly appealing because they are undertold. Sure, everyone knows of Marie Curie’s brilliant and tragic dedication to uncovering the mysteries of radioactivity. But did you know how Rita Levi-Montalcini had to hide from the Italian Fascists and the German Nazis using fake names, doing research on scarce chicken eggs in her parent’s kitchen, before she would eventually discover nerve growth factor and win the Nobel Prize? We didn’t.

Do you know which biochemist is the American who’s logged the most time in space? Dr. Peggy Whitson, the space ninja. But the honor of being the first civilian in space goes to Soviet skydiver Valentina Tereshkova. Margaret Hamilton was lead software engineer on the code that got the first feet on the moon, but in the days before astronauts had learned to trust the silicon, John Glenn wanted Katherine Johnson to double-check the orbital calculations before he set foot in the Friendship 7.

And on it goes. Maria Goeppert-Mayer figured out the structure of nuclear shells, Kathleen Booth invented assembly language, and Françoise Barré-Sinoussi discovered HIV. Stephanie Kwolek even saved Hackaday writer Dan Maloney’s life by inventing Kevlar.

In all, we’ve written 30 profiles of women in science in the last year — far too many to list here by name. You can browse them all by using the Biography category. (We’ve thrown in biographies of a few men too, because women don’t have a monopoly on neat stories.)

We’re not done yet, either. So thank you, Ada Lovelace, for giving us the impetus to cover the fascinating stories and important contributions of so many women in science!