Hackaday Links: July 28, 2019

July 28, 2019 by Dan Maloney 16 Comments

It looks like Apple is interested in buying Intel’s modem chip business. Seriously interested; a deal worth $1 billion could be announced as early as this week. That might look like a small potato purchase to the world’s biggest company – at least by market capitalization – but since the technology it will be buying includes smartphone modems, it provides a look into Apple’s thinking about the near future with regard to 5G.

It turns out that Make Magazine isn’t quite dead yet. [Dale Dougherty], former CEO of Maker Media, which went under in June, has just announced that he and others have acquired the company’s assets and reformed under the name “Maker Community LLC.” Make: Magazine is set to resume publication, going back to its roots as a quarterly publication in the smaller journal format; sadly there’s no specific word about the fate of Maker Faire yet.

The hoopla over the 50th anniversary of Apollo 11 may be over, but we’d be remiss not to call out one truly epic hack related to the celebration: the full restoration of an actual Apollo Guidance Computer. The AGC was from a test model of the Lunar Module, and it ended up in the hands of a private collector. Since November of 2018 the AGC has been undergoing restoration and tests by [Ken Shirriff], [Mike Stewart], and [Carl Claunch]. The whole effort is documented in a playlist by [Marc “CuriousMarc” Verdiell] that’s worth watching to see what was needed to restore the AGC to working condition.

With the summer sun beating down on the northern hemisphere, and air conditioners at working extra hard to keep things comfortable. [How To Lou] has a quick tip to improve AC efficiency. Turns out that just spraying a fine mist of water on the condenser coils works wonders; [Lou] measured a 12% improvement in cooling. It may not be the best use of water, and it may not work as well in very humid climates, but it’s a good tip to keep in mind.

Be careful with this one; between the bent spoon, the syringe full of amber liquid, and the little candle to heat things up, this field-expedient reflow soldering setup might just get you in trouble with the local narcotics enforcement authorities. Even so, knowing that you can assemble a small SMD board without a reflow oven might prove useful someday, under admittedly bizarre circumstances.

From the “Considerably more than 8-bits music” file, check out the Hull Philharmonic Orchestra’s “8-Bit Symphony.” If your personal PC gaming history included a Commodore 64, chances are you’ll recognize songs from titles like “Monty on the Run”, “Firelord”, “Green Beret”, and “Forbidden Forest.” Sure, composers like [Ben Daglish] and [Paul Norman] worked wonders with the three-channel SID chip, but hearing those tunes rendered by a full orchestra is something else entirely. We found it to be particularly good background music to write by.

Custom Bases Make LEGO Spacecraft Even Cooler

July 19, 2019 by Tom Nardi 8 Comments

If you’re reading Hackaday, we’re willing to bet that you either own the LEGO Saturn V and Lunar Module models, or at the very least know somebody who does. Even if you thought you’d finally outgrown playing with little plastic bricks (a critical mistake, but one we’ll ignore for now), these two kits just have an undeniable appeal to them. You might never get a chance to work for NASA, but you can at least point to the Saturn V rocket hanging on your wall and say you built it yourself.

[Ben Brooks] thought these fantastic models deserved equally impressive stands, so he built “exhaust plumes” that both craft could proudly perch on. With the addition of some RGB LEDs and a Particle Photon to drive them, he added incredible lighting effects that really bring the display to life. There are also sound effects provided by an Adafruit Audio FX board, and for the Lander, an LCD display that mimics the Apollo Guidance Computer DSKY that astronauts used to safely navigate to the Moon and back.

In his write-up on Hackaday.io, [Ben] makes it clear that he was inspired by previous projects that added an illuminated column of smoke under the LEGO Saturn V, but we think his additions are more than worthy of praise. Playing real audio from the Apollo missions that’s synchronized to the light show honestly makes for a better display than we’ve seen in some museums, and he even rigged up a wireless link so that his neighbor’s kids can trigger a “launch” that they can watch from their window.

For the Lunar Module, he 3D printed an enclosure for the Photon and Adafruit quad alphanumeric display that stands in for the DSKY. There’s even lighted indicators for the 1201/1202 program alarms that popped up as Neil Armstrong and Buzz Aldrin descended to the lunar surface 50 years ago.

While many of us aren’t old enough to have our own first hand memories of the Moon landing, projects like this prove that the incredible accomplishments of the Apollo program never fail to inspire. Who knows? Those kids that are watching [Ben]’s Saturn V from next door might one day get to make the trip themselves.

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Live Apollo 11 Transcript On EInk Display

July 18, 2019 by Tom Nardi 1 Comment

There are few moments in history that have ever been recorded in more detail or analyzed as thoroughly as the Apollo 11 mission to the Moon. Getting three men to our nearest celestial neighbor and back in one piece took a lot of careful planning, and recording every moment of their journey was critical to making sure things were going smoothly. As we celebrate the 50th anniversary of man’s first steps off our world, these records give us a way to virtually tag along with Armstrong, Aldrin, and Collins.

As part of the 50th anniversary festivities at the Parkes Radio Telescope in Australia, [Andrew] created a badge that would let him wear a little piece of Apollo 11. Using an ESP32 and an eInk screen, it replays the mission transcript between the crew and ground control in real-time. It’s a unique way to experience the mission made possible by that meticulous data collection that’s a hallmark of the National Aeronautics and Space Administration.

[Andrew] was inspired by the “Apollo 11 In Real Time” website, but rather than pulling the content from the Internet, he’s loaded the mission transcripts onto the ESP32’s SPIFFS filesystem as a CSV file. Not that the badge is completely offline, it does need to connect to the Internet (via a hotspot on his phone) so it can keep its internal clock synchronized with NTP. Keeping everything local does reduce power consumption compared to streaming it from the Internet, but he admits that otherwise he didn’t give much thought to energy efficiency and there’s definitely some room for improvement.

The LILYGO TTGO board he’s using combines the ESP32 with a 2.13 inch eInk display, in a formfactor not unlike the Badgy we’ve covered previously. He was able to find a STL for a 3D printed case on Thingiverse which he modified to fit a battery. Unfortunately the original model was released under a license that prevents him from distributing his modified version, but it doesn’t sound too difficult to replicate if you’re interested in building your own running ticker of humanity’s greatest adventure.

Project Egress: The Hinges

July 18, 2019 by Dan Maloney 34 Comments

A door’s hinges are arguably its most important pieces. After all, a door without hinges is just, well, a wall. Or a bulkhead, if we’re talking about a hingeless hatch on a spacecraft.

And so the assignment for creating hinges for Progress Egress, the celebration of the 50th anniversary of the Apollo 11 landing by creating a replica of the command module hatch, went to [Jimmy DiResta]. The hinges were complex linkages that were designed to not only handle the 225 pound (102 kg) hatch on the launch pad, but to allow extended extravehicular activity (EVA) while en route to the Moon. [Jimmy], a multimedia maker, is just as likely to turn metal as he is to work in wood, and his hinges are a study of 1960s aerospace engineering rendered in ipe, and extremely hard and dense tropical hardwood, and brass.

[Jimmy]’s build started with a full-size 3D-printed model of the hinge, a move that paid off as the prints acted both as templates for machining the wood components and as test jigs to make sure everything would articulate properly. Sheet brass was bent and soldered into the hinge brackets, while brass rod stock was turned on the lathe to simulate the hydraulic cylinder hinge stays of the original. The dark ipe and the brass work really well together, and should go nicely with [Fran Blanche]’s walnut and brass latch on the assembled hatch.

With [Adam Savage]’s final assembly of all the parts scheduled for Thursday the 18th, we’re down to the wire on this celebration of both Apollo and the maker movement that was at least in part born from it.

Note: the assembly started at 11:00 Eastern time, and there’s a live stream at https://airandspace.si.edu/events/project-egress-build.

Continue reading “Project Egress: The Hinges” →

Project Egress: A Bracket And A Bell Crank For The Latches

July 15, 2019 by Dan Maloney 29 Comments

Put yourself in [This Old Tony]’s shoes: you get an email out of the blue asking you to take part in making a replica of a 50-year-old spacecraft. Would you believe it? He didn’t, at least not at first, but in the end it proved to be true enough that he made these two assemblies for Project Egress in his own unique style.

If you haven’t heard of Project Egress, check out our coverage of the initial announcement. The idea is to build a replica of the crew hatch from the Apollo 11 Command Module Columbia, as part of the 50th anniversary of the Apollo 11 landing next week. [Adam Savage] at Tested has enlisted 44 hackers and makers to help, spreading the work out among the group and letting everyone work in whatever materials and with whatever methods they feel like. [Old Tony], perhaps unsurprisingly, chose mainly Apollo-era dehydrated space-grade aluminum, machined using a combination of manual and CNC machining. We really like the finish he chose – a combination of sandblasting and manual distressing to give it a mission-worn look.

As for exactly what the parts themselves are, the best [Old Tony] could come up with to call them is a bracket and a bell crank. From the original hatch drawings, it looks like there were two bell cranks, which will transmit force around the hatch to the latches that [Fran Blanche], [Joel] and [Bob], and no doubt others have contributed to the build.

We’re eagerly anticipating the final assembly, to be executed by [Adam] live at the Smithsonian’s National Air and Space Museum on July 18. Project Egress is as much a celebration of the maker movement as it is a commemoration of Apollo, and we’re pleased that people will get a chance to see the fruits of the labors of all these hackers in so public a forum.

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New Space Abort Systems Go Back To The Future

July 15, 2019 by Tom Nardi 26 Comments

Throughout the history of America’s human spaceflight program, there’s been an alternating pattern in regards to abort systems. From Alan Shepard’s first flight in 1961 on, every Mercury capsule was equipped with a Launch Escape System (LES) tower that could pull the spacecraft away from a malfunctioning rocket. But by the first operational flight of the Gemini program in 1965, the LES tower had been deleted in favor of ejection seats. Just three years later, the LES tower returned for the first manned flight of the Apollo program.

With the Space Shuttle, things got more complicated. There was no safe way to separate the Orbiter from the rest of the stack, so when Columbia made its first test flight in 1981, NASA returned again to ejection seats, this time pulled from an SR-71 Blackbird. But once flight tests were complete, the ejector seats were removed; leaving Columbia and all subsequent Orbiters without any form of LES. At the time, NASA believed the Space Shuttle was so reliable that there was no need for an emergency escape system.

It took the loss of Challenger and her crew in 1986 to prove NASA had made a grave error in judgment, but by then, it was too late. Changes were made to the Shuttle in the wake of the accident investigation, but escape during powered flight was still impossible. While a LES would not have saved the crew of Columbia in 2003, another seven lives lost aboard the fundamentally flawed Orbiter played a large part in President George W. Bush’s decision to begin winding down the Shuttle program.

In the post-Shuttle era, NASA has made it clear that maintaining abort capability from liftoff to orbital insertion is a critical requirement. Their own Orion spacecraft has this ability, and they demand the same from commercial partners such as SpaceX and Boeing. But while all three vehicles are absolutely bristling with high-tech wizardry, their abort systems are not far removed from what we were using in the 1960’s.

Let’s take a look at the Launch Escape Systems for America’s next three capsules, and see where historical experience helped guide the design of these state-of-the-art spacecraft.

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You Are Probably Using NASA Technology

July 12, 2019 by Al Williams 50 Comments

You often hear people — especially non-hacker types — complain that money spent on space travel would be better off spent here on Earth. Of course that ignores one big factor, that space programs have resulted in a host of spin off technologies, many of which you use every day. JPL has an infographic that covers twenty things we wouldn’t have without space travel, and while it could be said that some of these things might have been invented anyway it would doubtless have taken much longer without the necessity and the income from space programs. If you want more detail, Tech Briefs has an interesting interview on the subject of what tech spun off the Apollo program.

Some of the inventions are pretty obvious, and others are more refinements of things that already existed. We all knew NASA pioneered freeze drying for food, for instance. However, some of them are pretty surprising. For example, according to the infographic, NASA asking Black and Decker to develop a moon sample collector led to the Dust Buster.

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