Manufacturer | Snecma |
---|---|
Hall-effect thruster | |
Performance | |
Thrust | 90 mN |
Specific impulse | 1660 s |
Total impulse | 3.4×106 N-s |
PPS-1350 is a Hall-effect thruster, a kind of ion propulsion system for spacecraft. It was used in the SMART-1 mission to the moon and one geostationary satellites: Inmarsat-4A F4.[1][2]
It creates a stream of electrically charged xenon ions accelerated by an electric field and confined by a magnetic field.[3] The PPS-1350 is built by Snecma, a French aerospace firm, in cooperation with Fakel, who designed the SPT-100, on which the PPS 1350 is based.[4]
Specifications
Parameter | Value | |
---|---|---|
Power (nominal) (W) | 1500 | |
Thrust (mN) | 90 | |
Thrust-to-power level (mN/kW) | 60 | |
Specific impulse (s) | 1,660 | |
Total impulse delivered (N.s) | 3.4×106 | |
Number of cycles | 7300 | |
Efficiency (%) | 55 | |
Supply voltage (V) | 350 | |
Discharge current (A) | 4.28 | |
Xenon supply pressure (bar) | 2.50 — 2.80 | |
Mass (including 2 Xe flow control systems) (kg) | 5.30 | |
Reference: [3] |
See also
References
- ↑ "Alphasat (Inmarsat-4A F4)". Gunter's Space Page. Retrieved 29 January 2017.
- ↑ "Hispasat 36W-1 (Hispasat AG1)". Gunter's Space Page. Retrieved 29 January 2017.
- 1 2 "PPS-1350 STATIONARY PLASMA THRUSTER" (PDF). Snecma. Retrieved 20 November 2016.
- ↑ "PPS1350 web page". Safran Aircraft Engines. Retrieved 29 January 2017.
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