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The method of checking onboard equipment of the spacecraft on stability to arcing

DOI 10.18127/j19998465-201812-09

Keywords:

A.V. Seloustev – Design Engineer of the 2nd category, JSC Academician M.F. Reshetnev «ISS» (Zheleznogorsk)
E-mail: seloustev@iss-reshetnev.ru
A.A. Hvalko – Ph.D.(Phys.-Math.), Head of Group, JSC Academician M.F. Reshetnev «ISS» (Zheleznogorsk)
E-mail: hvalko@iss-reshetnev.ru
S.B. Suntsov – Ph.D.(Eng.), Head of Department, JSC Academician M.F. Reshetnev «ISS» (Zheleznogorsk)
E-mail: sbsun@iss-reshetnev.ru
A.V. Batrakov – Ph.D.(Phys.-Math.), Head of Laboratory, Institute of High Current Electronics (Tomsk)
E-mail: batrakov@lve.hcei.tsc.ru
S.A. Popov – Ph.D.(Phys.-Math.), Senior Research Scientist, Institute of High Current Electronics (Tomsk)
A.V. Shneider – Ph.D.(Eng.), Research Scientist, Institute of High Current Electronics (Tomsk)
K.V. Karlik – Leading Engineer, Institute of High Current Electronics (Tomsk)
E.L. Dubrovskaya – Ph.D.(Phys.-Math.), Research Scientist, Institute of High Current Electronics (Tomsk)


Describes the method of checking equipment on stability to arcing, tested with application experimental hardware complex. It is shown that the dominating system defect leading to arcing, is through infringement a protective dielectric covering continuity. It is shown that the developed method allows to reveal effectively continuity defects, being dangerous from the point of view arcing. As a result of research new knowledge on influence of various factors, such as pressure, distance, materials of electrodes and presence of coverings, structure and pressure of the gas environment, upon probability secondary arcing is received. The study has created a scientific and technical background for the development of test equipment for testing the spacecraft manufactured by electronic equipment for resistance to arcing.

References:
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  2. Patel M.R. Spacecraft power systems. CRC Press. 2005. 691 p.
  3. Kozyrev A.V., Kozhevnikov V.Yu., Semeniuk N.S., Zyulkova L.A. Theoretical Simulation of a Gas Breakdown Initiated by External Plasma Source in the Gap With Combined Metal-Dielectric Electrodes // IEEE Transaction on Plasma Science. August 2015. V. 43. № 8. P. 2294−2298.
  4. Kozhevnikov V.Yu., Kozyrev A.V., Semeniuk N.S., Batrakov A.V., Karaban V.M., Kosov D.S. Design and diagnostics of arc-resistant electronics for satellite telecommunication systems // Proc. of 18th Mediterranean Electrotechnical Conference (MELECON). 2016. P. 122340(1−5).

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