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Guide to Spacecraft Charging Effects is a single reference source containing both theory of spacecraft charging and suggested practical detailed spacecraft design requirements and procedures to minimize the effects of spacecraft charging and to limit the effects of the resulting electrostatic discharge.
Numerous equations provide a good theoretical background, and charts, graphs, figures, tables, and photos summarize and illustrate the theoretical background. Numerous appendices expand on the main text, a well thought-out index gives quick access to important concepts, and an extensive list
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Produktbeschreibung
Guide to Spacecraft Charging Effects is a single reference source containing both theory of spacecraft charging and suggested practical detailed spacecraft design requirements and procedures to minimize the effects of spacecraft charging and to limit the effects of the resulting electrostatic discharge.

Numerous equations provide a good theoretical background, and charts, graphs, figures, tables, and photos summarize and illustrate the theoretical background. Numerous appendices expand on the main text, a well thought-out index gives quick access to important concepts, and an extensive list of references provides further avenues of research for those wishing to extend their knowledge.

Much of the environmental data and material response information has been adapted from published and unpublished scientific literature for use in this document. It is the book form of the recently issued NASA Technical Handbook NASA-HDBK-4002A, March 3, 2011 (by the same authors). In particular, this book can be used as the textbook form of that Handbook and its earlier sources, NASA Technical Paper 2361, 1984, and NASA Technical Handbook NASA-HDBK-4002, 1999 (both co-authored by the current authors).

Since the original writing of the 2361 and 4002, there have been many developments in the understanding of spacecraft charging issues and mitigation solutions, as well as advanced technologies needing new mitigation solutions. The following topics are covered in Spacecraft Charging Effects:
Solar cell technology, especially higher voltage arrays, and the new design approaches that are appropriate for them
Information about the space plasma environment
New analytic computer codes to analyze spacecraft charging
Spacecraft anomalies and failures, which have emphasized certain designs that are of greater importance than others.
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Autorenporträt
Henry B. Garrett, PhD, is a principal scientist and, until 2011, the chief technologist for the Office of Safety and Mission Success at NASA's Jet Propulsion Laboratory (JPL). He represented JPL at the Pentagon as part of the Ballistic Missile Defense Organization where he acted as deputy program manager for the highly successful DoD/NASA Clementine Lunar Mission and Program Manager for the Clementine InterStage Adapter Satellite. The recipient of the Air Force's Harold Brown Award and Legion of Merit and NASA Medals for Exceptional Engineering Achievement and for Exceptional Service, Dr. Garrett is the coauthor of Spacecraft Environment Interactions and the author of several NASA spacecraft charging guidelines. Albert C. Whittlesey, member of the staff, Principal in the Office of Safety and Mission Success, has been a part of the Electromagnetic Compatibility (EMC) group since his arrival at JPL in 1962. Mr. Whittlesey has authored numerous symposium presentations and journal articles about various facets of EMC and spacecraft charging. He received a NASA Exceptional Engineering Achievement Medal for his technical leadership in EMC and ESD. Mr. Whittlesey is also the author of several NASA spacecraft charging guidelines with Dr. Garrett.