Radio ham’s Femtosats project wins ISS Design Competition

Femtosats deploying from 3D printed spacecraftRadio amateur Andy Filo KJ6ZGI has been announced as winner of the ISS Design Competition organised by component distributor Mouser.

Tech Crunch reports nearly 250 ideas were submitted, everything from tools to toys to scientific instruments. The proposals were vetted and submitted for judgment by tech-savvy astronaut and former ISS resident Col. Chris Hadfield VA3OOG, and Grant Imahara, of Mythbusters fame.

Andy’s winning entry was for a 3D printed “mothership” to launch Femosats into space. Femtosats are 30mm square and 4mm thick self contained satellites that extend the Internet of Things to Space.

Watch 2016 ISS Design Challenge Winners! – Empowering Innovation Together™ with Grant Imahara

Read the Tech Crunch story at https://techcrunch.com/2016/11/07/3d-printed-satellite-launcher-heads-to-iss-with-blessing-of-chris-hadfield-and-grant-imahara/

Mouser ISS Design Competition winners http://www.mouser.com/contests/iss-project-contest?entry_id=131259785

Andy KJ6ZGI has previous worked with Zac Manchester KD2BHC on the KickSat project
http://makezine.com/2014/04/11/how-to-kick-a-sat/

PrintSat – An Amateur Radio 3D Printer CubeSat

The image shows the building of a CubeSat with Additive Manufacturing with the WINDFORM XT. Image Credit Windform

Students at Montana Sate University (MSU) are planning to build their new amateur radio satellite PrintSat with nano-carbon-impregnated plastic using a 3D printer.

David Klumpar KD7MFJ of MSU said 3D printing “will further lower the costs and speed the development of very small satellites, enabling future scientific missions comprised of dozens of satellites flying in formation.”

Jim White WD0E, president of Colorado Satellite Services, explained that “Additive manufacturing (also called 3-D printing) has evolved in the past few years to be a very inexpensive and fast way to make mechanical parts. With PrintSat, the entire structure of the small satellite will be printed. As the first use of additive manufacturing for a satellite, we plan to show it’s not only cheaper and faster, but that we can make parts that cannot be made in traditional ways.”

When in orbit PrintSat will measure and report on the characteristics of the Windform XT2.0 printed material and plating during its mission life in order to verify the utility of additive manufacturing for spacecraft structures and mechanisms.

PrintSat plans to use the same frequencies as RAMPART and use GMSK 9k6 Ax.25 packet radio. It is aiming for a May 2103 launch from the Wallops Flight Facility into a 500km 40 degree inclination orbit.

Other satellites planning to fly on the same launch include Blacknight-1, Spa-1 Trailblazer, Phonesat, Kysat- II, Rampart, NPS-SCAT, Copper, TJSat, Tethersat, Lunar orbiter/lander CubeSat, Swampsat, Cape-2, Dragonsat-1 and Ethersat.

Montana State University Space Science and Engineering Laboratory https://ssel.montana.edu/

Windform XT2.0 http://www.windform.it/windform-xt-2-0-en.html

IARU Amateur Satellite Frequency Coordination Status Pages http://www.amsat.org.uk/iaru