NASA SBIR 2018-I Solicitation

Proposal Summary

 18-1- Z10.02-2662
 Propulsion Systems for Robotic Science Missions
 LaB6 and Iodine Resistant Miniature Cathodes for Small Thrusters
SMALL BUSINESS CONCERN (Firm Name, Mail Address, City/State/Zip, Phone)
e-beam, Inc.
21070 Southwest Tile Flat Road
Beaverton , OR 97007-8739
(503) 628-0703

Principal Investigator (Name, E-mail, Mail Address, City/State/Zip, Phone)
Bernard Vancil
21070 Southwest Tile Flat Road Beaverton, OR 97007 - 8739
(503) 628-0703

Business Official (Name, E-mail, Mail Address, City/State/Zip, Phone)
Bernard Vancil
21070 Southwest Tile Flat Road Beaverton, OR 97007 - 8739
(503) 628-0703
Estimated Technology Readiness Level (TRL) :
Begin: 2
End: 5
Technical Abstract

Seven miniature cathodes are offered in unique support and discharge structures with heaters and in keeper assemblies for use in thrusters for small satellites and CubeSats. Cathode candidates include LaB6, hafrium carbide, scandate, barium oxide coated tungsten, thoriated tungsten, tantalum and yttria-coated iridium. Each cathode will be constructed, tested, and evaluated in a xenon and iodine discharge environment.  All tests will be performed on planar cathodes using e beam’s unique cathode support structure, which incorporates support and heater in the same element. The assembly is extremely power efficient, dissipating less than 4 watts even on the high-temperature cathodes. It allows rapid construction of cathodes and keeper assemblies for multiple tests. Hafrium carbide is the most refractory binary compound known and has been successfully tested at e beam, inc. The hafrium carbide and LaB6 cathodes will be single-crystal planar, 0.040-inch in diameter. Micro-thrusters are needed for CubeSats and other small satellites. Over 2,000 small satellites are planned over the next 10 years, but small, low-cost, efficient cathodes are not available, especially iodine compatible cathodes. E beam, inc. specializes in small cathodes and is a leader in scandate cathode research.

Potential NASA Applications

NASA is developing a number of ion and Hall thrusters under 1 kW for small satellites and CubeSats. Miniature, low cost, efficient cathodes are needed for these thrusters. Expected demand: 2,000 to 2,750 satellites in the next 5 years.

Potential Non-NASA Applications

CubeSats are the configuration of choice for university and private space research. They need low cost, efficient micro-thrusters for orbit raising/lowering, and attitude and position control. Constellations of CubeSats flying in formation with synthetic aperture radar for earth big data imaging are currently underway. This is a potential market for very small thermionic cathodes. Our innovation is ideal for this application.

Form Generated on 05/25/2018 12:03:21