There is an increased need for propulsive microsatellites to support a range of future specialized Air Force and NASA missions. In response to this need, the Air Force Research Laboratory's (AFRL) Spacecraft Propulsion unit at Edwards AFB, CA, has developed the 100-gram Micro Pulsed Plasma Thruster (MicroPPT), a simple, miniaturized propulsion device designed for propulsive attitude control on present 100-kilogram small satellites, and for stationkeeping and primary propulsion on next-generation 25-kilogram-class microsatellites. The primary features of the MicroPPT are the use of a solid inert propellant (Teflon), expected high-Isp due to the use of electromagnetic acceleration, and a simple, lightweight design based largely on commercial, flight-qualified electronic components. For 100-kilogram-class small satellites a set of 4 MicroPPTs, each designed with 3 selectable thrust directions, can provide full spacecraft attitude control, yet require only 1/10th the mass of standard torque rods and reaction wheels. The MicroPPT was invented in 1997 and it is currently slated for flight as a micropropulsion demonstration aboard the AFRL TechSat21, scheduled for launch in 2004. The rapid advancement of the MicroPPT from invention to flight manifestation is indicative of the inherent simplicity of the device, and of the importance AFRL is placing on the development of microsatellite enabling technologies. This paper describes the design and functioning of the MicroPPT, including its propellant assembly, electronic firing mechanism, self-consuming satellite design, and cable guns. Laboratory testing, modeling, and analysis have led to MicroPPT assembly designs that demonstrate long lifetimes without char formation. MicroPPT lifetime is now limited only by the amount of available propellant and has demonstrated over 1 million discharges without failure. (4 figures, 8 refs.).
New Satellite Propulsion System Has Mass Below 100 Grams (0.22 pounds)
2001
10 pages
Report
Keine Angabe
Englisch
Electric & Ion Propulsion , Rocket Propellants , Astronautics , Thrusters , Electric propulsion , Space propulsion , Plasma engines , Attitude control systems , Artificial satellites , Lightweight , Ionization , Miniaturization , Space maintenance , Solid rocket propellants , Charring , Microsatellites , Microppt(Micro pulsed plasma thrusters) , Microsatellite propulsion , Char formation , Self consuming satellites , Program assessment , Program objectives , Electromagnetic propulsion , Teflon propellants
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