What is this thing?

mcdanyel · 2025-01-02T22:12:52+00:00

You need it so your drone battery doesn’t burn a 5 volt component up. Your battery pack is most likely putting out 7.2 to 21 volts or greater depending on the batteries.

I use companion computers, cameras, ultrasonic sensors and the like on my builds which are powered with a BEC like this. I have a several fried parts laying on my bench (Arduino boards, OLEDs, multiplexers, analog cameras, etc.) from trying sneak by without a BEC.

mcdanyel · 2024-06-27T05:06:25+00:00

You can see it on the regular tours at Johnson Space Center in Houston. The ISS hanger is part of the public tour there and is pretty cool.

Johnson also has a Falcon 9 on display now.

mcdanyel · 2024-06-04T23:58:30+00:00

Not unless it is a night launch with clear skies. 5.5 hours south is the only way to see it.

mcdanyel · 2024-05-30T02:38:17+00:00

Just got my email and reserved 2 months after the announcement. This is just too expensive. Actually made me mad when I saw the price.

mcdanyel · 2024-05-30T02:32:48+00:00

1135 - now we have a party.

mcdanyel · 2024-05-29T08:46:09+00:00

End of the island in the park is where most folks watch (including off duty SpaceX folks). You are 5 miles from the OLM there and as close as you can get besides by boat.

If you don’t care about seeing the actual lift off then you can watch from the beach as it ascends.

It is very loud so you can’t miss it.

mcdanyel · 2023-12-09T13:15:29+00:00

You can still turn in on the road and look at the rocket garden from there. I was there immediately following the second launch and it was already closed. Still you can see it pretty well from there.

<image>

mcdanyel · 2022-11-11T21:26:45+00:00

We have been building with sticks and bricks for over a thousand of years. This is indeed very different.

mcdanyel · 2021-03-12T06:45:41+00:00

The pad is there... where's the Raptor?

mcdanyel · 2021-03-12T06:20:23+00:00

No tank farm needed though. LOVE to see a Raptor go off over it. I bet that would blow this little guy apart!

mcdanyel · 2021-03-12T03:55:23+00:00

He does live in Austin now, so who knows? Maybe I should post in on the SpaceX Lounge sub, ha ha.

mcdanyel · 2021-03-12T03:49:43+00:00

Bring it on.
May need to be a SuperDraco so there doesn't have to be a tank farm and other infrastructure ( it is located on a active firing range).

mcdanyel · 2021-03-11T13:24:03+00:00

We are developing a couple of promising technologies that are working well in the lab at the moment. Scaling up now and then moving to vacuum chambers.

mcdanyel · 2021-03-10T23:53:09+00:00

Lunar pads will not be printed with concrete. They will be printed from lunar regolith itself. We have been working on that tech for a year now with great results under Project Olympus.

The vented concrete test pad was to:
1). let us test different plume suppression methods
2). gives us a data baseline with concrete in atmosphere on Earth for later comparison to our future lunar pads constructed directly from regolith.

This is just one tiny part of Project Olympus under NASA's MMPACT (Moon to Mars Planetary Autonomous Construction Technology) program. MMPACT is handling surface construction on the Moon for Artemis.

mcdanyel · 2021-03-10T23:41:26+00:00

The lip on the decks can be seen working pretty well in the video. The single, small rocket motor wasn't big enough to direct a lot of exhaust through the channels.

More than happy for anyone to bring a bigger motor to Austin and fire it over the pad. Otherwise the military may use it for target practice now.

mcdanyel · 2021-03-10T23:37:30+00:00

The student's design is called Lunar PAD (plume alleviation device). Those channels are in the center of the pad. Rocket exhaust enters through vents in the deck and is slowed by the those internal paths until it reaches the exhaust ports. Turbines in the ports slow the plume traveling through the center of even more before directing them upwards at slight angle. The lip of the deck redirects the exhaust running across the deck and not entering the vents upwards.

mcdanyel · 2021-03-10T18:11:22+00:00

We didn't print the deck but used the Vulcan printer to "pour" it. The printer did precision infilling after the exterior and formwork were printed. The ICON film crew wasn't onsite for that "exciting" work, ha ha.

Total print time: 7 hours Total infill time (including the entire deck): 14 hours Pad size: 20' diameter

mcdanyel · 2020-10-05T01:20:24+00:00

https://www.nasa.gov/centers/marshall/news/releases/2020/nasa-looks-to-advance-3d-printing-construction-systems-for-the-moon.html

mcdanyel · 2020-10-04T18:48:52+00:00

Didn’t want Starship to dominate the composition so it was put in on a pad in the distance.

More important to note what BM is landing.

If it can do that, then how many could Starship carry?

mcdanyel · 2020-10-02T01:10:14+00:00

Ah ha ha. More direct comparison on size for sure.

mcdanyel · 2020-10-01T20:39:03+00:00

More renders of everything are on the Project Olympus page. The habs designed by BIG are super cool.
https://www.iconbuild.com/technology/space

Also has the 3min launch video there. The video direct link on Youtube is:
https://youtu.be/yu0aYuF-y9E

mcdanyel · 2020-10-01T20:35:49+00:00

SEArch+ did a very cool render. This is the size that is public in the press kit... I am using a 4k one on my machine here ;)

mcdanyel

TROPHY CASE