Title :
Hollow Cathode Life Issues
Author_Institution :
L-3 Commun. Electron Technol. Inc.
Abstract :
L-3 Communications ETI (formerly Boeing Electron Dynamics Division and, prior to that, a division of Hughes Space and Communications) is a company with significant background in both cathodes (used in space traveling wave tubes) and electric propulsion. L-3 ETI has been responsible for developing a cathode life model as presented in R. T. Longo (2003) that is recognized throughout the industry and has also been a key enabler in the development and manufacture of gridded ion thrusters. Testing of the 25 cm xenon ion propulsion system (XIPS) has demonstrated 2 potential ignition issues associated with the hollow cathode assembly: delayed ignition due to barium depletion and heater failure. In its role in satellite station-keeping, the XIPS engine is ignited daily over a 15 year mission so that a detailed understanding of the ignition process is important in evaluating its life. The heater used to ignite the XIPS cathode assembly represents a single point failure so that dealing with potential failure mechanisms is critical in ensuring mission life
Keywords :
aerospace propulsion; cathodes; ignition; ion engines; life testing; 25 cm; barium depletion; cathode life model; delayed ignition; failure mechanisms; gridded ion thrusters; heater failure; hollow cathode assembly; ignition issues; mission life; satellite station-keeping; xenon ion propulsion system; Assembly systems; Cathodes; Electron tubes; Ignition; Manufacturing industries; Propulsion; Space exploration; System testing; Virtual manufacturing; Xenon;
Conference_Titel :
Vacuum Electronics Conference, 2006 held Jointly with 2006 IEEE International Vacuum Electron Sources., IEEE International
Conference_Location :
Monterey, CA
Print_ISBN :
1-4244-0108-9
DOI :
10.1109/IVELEC.2006.1666312
