Power Processing Unit For Micro Satellite Electric Propulsion System

Power Processing Unit For Micro Satellite Electric Propulsion System

The Micro Satellite Electric Propulsion System (MEPS) program has been originated by the increasing need to provide a low-cost and low-power Electric Propulsion System (EPS) for small satellites (<300Kg) and finds applications in orbit insertion after launcher separation, orbit maintenance, orbit...

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Main Authors: Savvas Spiridon, Malamas Dimitrios, Manoudis Alexandros, Ramnalis Pavlos, Benetti Luca, d’Argliano Silvia, Onida Luca, Caniglia Davide, Fontani Lorenzo, Misuri Tommaso
Format: Article
Language:English
Published: EDP Sciences 2017-01-01
Series:E3S Web of Conferences
Online Access:https://doi.org/10.1051/e3sconf/20171615004
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spelling doaj-5eb25575c3084ccfa0c4ec37549fdc1c2021-02-02T05:39:43ZengEDP SciencesE3S Web of Conferences2267-12422017-01-01161500410.1051/e3sconf/20171615004e3sconf_espc2017_15004Power Processing Unit For Micro Satellite Electric Propulsion SystemSavvas SpiridonMalamas DimitriosManoudis AlexandrosRamnalis Pavlos0Benetti Lucad’Argliano SilviaOnida LucaCaniglia DavideFontani LorenzoMisuri Tommaso1Sitael Hellas S.LTDSitael, Via Livornese, 1019 S. Piero a GradoThe Micro Satellite Electric Propulsion System (MEPS) program has been originated by the increasing need to provide a low-cost and low-power Electric Propulsion System (EPS) for small satellites (<300Kg) and finds applications in orbit insertion after launcher separation, orbit maintenance, orbit transfers and deorbiting. The MEPS design was conceived as a “plug and play” subsystem that can be easily installed in a number of small spacecraft platforms, consisting of two Thruster Units (TU), Power Processing Unit (PPU), Xenon Propellant Tank Assembly (PTA) and Propellant Management Assembly (PMA). Being the “heart” of the system, the PPU supplies and monitors all the EPS voltages and currents. The objective of this paper is to present the design of the PPU whose concept is focused on high efficiency (> 92%), small size and weight and high reliability. Its functional modules and preliminary results obtained at breadboard level are also presented.https://doi.org/10.1051/e3sconf/20171615004
collection DOAJ
language English
format Article
sources DOAJ
author Savvas Spiridon
Malamas Dimitrios
Manoudis Alexandros
Ramnalis Pavlos
Benetti Luca
d’Argliano Silvia
Onida Luca
Caniglia Davide
Fontani Lorenzo
Misuri Tommaso
spellingShingle Savvas Spiridon
Malamas Dimitrios
Manoudis Alexandros
Ramnalis Pavlos
Benetti Luca
d’Argliano Silvia
Onida Luca
Caniglia Davide
Fontani Lorenzo
Misuri Tommaso
Power Processing Unit For Micro Satellite Electric Propulsion System
E3S Web of Conferences
author_facet Savvas Spiridon
Malamas Dimitrios
Manoudis Alexandros
Ramnalis Pavlos
Benetti Luca
d’Argliano Silvia
Onida Luca
Caniglia Davide
Fontani Lorenzo
Misuri Tommaso
author_sort Savvas Spiridon
title Power Processing Unit For Micro Satellite Electric Propulsion System
title_short Power Processing Unit For Micro Satellite Electric Propulsion System
title_full Power Processing Unit For Micro Satellite Electric Propulsion System
title_fullStr Power Processing Unit For Micro Satellite Electric Propulsion System
title_full_unstemmed Power Processing Unit For Micro Satellite Electric Propulsion System
title_sort power processing unit for micro satellite electric propulsion system
publisher EDP Sciences
series E3S Web of Conferences
issn 2267-1242
publishDate 2017-01-01
description The Micro Satellite Electric Propulsion System (MEPS) program has been originated by the increasing need to provide a low-cost and low-power Electric Propulsion System (EPS) for small satellites (<300Kg) and finds applications in orbit insertion after launcher separation, orbit maintenance, orbit transfers and deorbiting. The MEPS design was conceived as a “plug and play” subsystem that can be easily installed in a number of small spacecraft platforms, consisting of two Thruster Units (TU), Power Processing Unit (PPU), Xenon Propellant Tank Assembly (PTA) and Propellant Management Assembly (PMA). Being the “heart” of the system, the PPU supplies and monitors all the EPS voltages and currents. The objective of this paper is to present the design of the PPU whose concept is focused on high efficiency (> 92%), small size and weight and high reliability. Its functional modules and preliminary results obtained at breadboard level are also presented.
url https://doi.org/10.1051/e3sconf/20171615004
work_keys_str_mv AT savvasspiridon powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT malamasdimitrios powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT manoudisalexandros powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT ramnalispavlos powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT benettiluca powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT darglianosilvia powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT onidaluca powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT canigliadavide powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT fontanilorenzo powerprocessingunitformicrosatelliteelectricpropulsionsystem
AT misuritommaso powerprocessingunitformicrosatelliteelectricpropulsionsystem
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