NRL Invents CubeSat Release Mechanism: To Deploy Solar Panels, Tethers


09/03/2014 07:00 EDT - 80-14r
Contact: Kyra Wiens, (202) 767-2541


When a satellite is launched into space, there's sometimes room on the rocket for a few mini satellites to hitch a ride, too. Adam Thurn, an Aerospace Engineer at the U.S. Naval Research Laboratory (NRL), has invented a nichrome burn wire mechanism for these CubeSats, as they're called, to deploy something once in orbit.

Adam Thurn is an aerospace engineer at NRLAdam Thurn, an Aerospace Engineer at the U.S. Naval Research Laboratory (NRL), has invented a nichrome burn wire mechanism to deploy something once in orbit. "The idea was to make it cheap and easy to use and easy to build so that students at universities could replicate it," he says.
(Photo: U.S. Naval Research Laboratory/Jamie Hartman)

"This is developed as a low-cost, simple mechanism that would do different deployables on a satellite like that," says Thurn. "We've done ones with solar arrays, that are just on hinges and they come out. Another one we've done is tether deployment."

CubeSat release mechanism is simple, with student projects in mind

About 10 years ago, universities started using the relatively low-cost CubeSats for student-led projects; several companies now offer CubeSat kits. "They've gotten more advanced as people have realized the cost benefits of them," says Thurn. He points to a model on top of a bookcase near his desk. "A 3U CubeSat is about the size of a loaf of bread," he says.

But, "Dealing with tiny stuff is difficult." A rocket launch is a prolonged, violent event. For decades, NRL has been figuring out how to tuck away the auxiliary pieces, like solar panels, and engineer doors over instruments—then make everything come to life only when the satellite is safely in orbit. With these new CubeSats, however, "You want to do all these deployables, but you start dealing with mechanisms and that gets complicated because you don't have the necessary volume," says Thurn. "Mechanisms tend to want to be a little bit bigger for their releases." Additionally, it's easier for electronics to overheat.

At a cost of $160 each, Thurn assembled 10 mechanisms himself for testing and has given a few away to universities. He used all commercial parts, except for two aluminum pieces he calls "saddles" and had made at a local machine shop. "The idea was to make it cheap and easy to use and easy to build so that students at universities could replicate it," he says. There are two steel rods or pins, "saddled" by two hard anodized pieces of aluminum with steel compression springs in between, and gold-plated ring terminals.

The key to deployment is a thin nichrome wire secured at the top of the pins with screws. "It's the same wire found in your toaster," says Thurn. When the spacecraft is in orbit and receives the command, "You send a controlled current through this wire and it heats up in vacuum to [about] 900 degrees Farenheit." The wire burns through a cable, which releases the deployable with the force from the springs.

CubeSat release mechanism shown to scaleA mechanism invented by Adam Thurn of the U.S. Naval Research Laboratory will be used, on a mission slated to launch in early 2015, to deploy a tether between two ends of a CubeSat.
(Photo: U.S. Naval Research Laboratory/Jamie Hartman)

Aside from providing universities with drawings of the mechanism, Thurn's also given away schematics so they, "Can make up their own bread board or circuit board or whatever it may be for their project." He's also designed it to work both in vacuum and in air using the same electronics. "That was done because a lot of universities don't have access to a vacuum chamber," he says, "and so if you can test your mechanism and your deployable in the air, that's hugely beneficial."

Thurn developed this mechanism in six months while under a Karle's Research Fellowship, after coming to NRL with an Aerospace Engineering degree from the University of Cincinnati.

"We changed a bunch of parameters [during testing] to figure out what was really important to the success and use of the mechanism, finding out that basically it's driven by current and spring strength. And the other 20 parameters we were changing didn't really matter, which is good, you only have to worry about a couple things then." His design is now patent-pending.

NRL TEPCE mission will use Thurn's mechanism in space next year

Burn wire release mechanisms on TEPCEShown are two burn wire release mechanisms, invented by Adam Thurn of the U.S. Naval Research Laboratory. They're installed on the TEPCE satellite, which will deploy the stacer tether system when the nichrome burn wire is heated with 1.60 Amps and cuts through the Vectran tie down cord holding the two endmasses together.
(Photo: U.S. Naval Research Laboratory/Adam Thurn)

NRL plans to use six of Thurn's mechanisms for a mission slated to launch in early 2015, called Tether Electrodynamics Propulsion CubeSat Experiment (TEPCE). TEPCE will hitch a ride to the International Space Station, says Thurn, "And then the Dextre robotic arm on the space station grabs it and we deploy from there." There's a stacer spring in the middle of the CubeSat and, when the cord is burned by the nichrome mechanism, "That spring shoots out and we deploy a one-kilometer tether between the two end masses of the satellite. So we split that satellite into two pieces."

TEPCE preparations have been comprehensive-and creative. "To understand the tether deployment a little bit better, we actually dropped TEPCE from the ceiling and then, during free-fall, we used one of these [mechanisms] to deploy the tether so it was in a near zero-[gravity] environment. And then we caught it in circus nets."

By running current through the tether, NRL hopes to create a reaction with the Earth's magnetic field that will change the orbit of the TEPCE satellite without using conventional fuel. "So the main application would be to clear space debris," says Thurn. "That's the holy grail of what they're trying to do."

NRL builds, tests space satellites at world-class facilities

Burn wire release mechanism, with chords, for CubeSatSmall CubeSats have become more advanced; but, "You want to do all these deployables, but you start dealing with mechanisms and that gets complicated because you don't have the necessary volume," says Adam Thurn of the U.S. Naval Research Laboratory. Thurn's invented a $160 mechanism to give CubeSats a deployables capability.
(Photo: U.S. Naval Research Laboratory/Jamie Hartman)

In addition to TEPCE, Thurn's now working on mechanisms for two spacecraft that will orbit the sun: "The mechanisms will deploy the door and then allow the telescopes to peek out over the heat shield and investigate solar activity." The two programs are Solar Orbiter Heliospheric Imager (SoloHI) and Wide-field Imager for Solar Probe Plus (WISPR).

"I love my job," says Thurn. "We get to do a lot of different things, from one-shot door deployments to bearing designs to motor designs to all kinds of different things. It's never boring."


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