Guide to mitigating spacecraft charging effects
"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...
| Main Author: | |
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| Format: | eBook |
| Language: | Inglés |
| Published: |
Hoboken, N.J. :
Wiley
c2012.
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| Edition: | 1st edition |
| Series: | JPL space science and technology series
JPL Space Science and Technology Series |
| Subjects: | |
| See on Biblioteca Universitat Ramon Llull: | https://discovery.url.edu/permalink/34CSUC_URL/1im36ta/alma991009628846306719 |
Table of Contents:
- GUIDE TO MITIGATING SPACECRAFT CHARGING EFFECTS; CONTENTS; Note from the Series Editor; Foreword; Preface; 1 Introduction; References; 2 Introduction to the Physics of Charging and Discharging; 2.1 Physical Concepts; 2.1.1 Plasma; 2.1.2 Penetration; 2.1.3 Charge Deposition; 2.1.4 Conductivity and Grounding; 2.1.5 Breakdown Voltage; 2.1.6 Dielectric Constant; 2.1.7 Shielding Density; 2.1.8 Electron Fluxes (Fluences) at Breakdown; 2.2 Electron Environment; 2.2.1 Units; 2.2.2 Substorm Environment Specifications; 2.3 Modeling Spacecraft Charging; 2.3.1 The Physics of Surface Charging
- 2.3.2 The Physics of Dielectric Charging 2.4 Discharge Characteristics; 2.4.1 Dielectric Surface Breakdowns; 2.4.2 Buried (Internal) Charge Breakdowns; 2.4.3 Spacecraft-to-Space Breakdowns; 2.5 Coupling Models; 2.5.1 Lumped-Element Modeling; 2.5.2 Electromagnetic Coupling Models; References; 3 Spacecraft Design Guidelines; 3.1 Processes; 3.1.1 Introduction; 3.1.2 Design; 3.1.3 Analysis; 3.1.4 Testing and Measurement; 3.1.5 Inspection; 3.2 Design Guidelines; 3.2.1 General ESD Design Guidelines; 3.2.2 Surface ESD Design Guidelines, Excluding Solar Arrays; 3.2.3 Internal ESD Design Guidelines
- 3.2.4 Solar Array ESD Design Guidelines 3.2.5 Special Situations ESD Design Guidelines; References; 4 Spacecraft Test Techniques; 4.1 Test Philosophy; 4.2 Simulation of Parameters; 4.3 General Test Methods; 4.3.1 ESD-Generating Equipment; 4.3.2 Methods of ESD Applications; References; 5 Control and Monitoring Techniques; 5.1 Active Spacecraft Charge Control; 5.2 Environmental and Event Monitors; References; 6 Material Notes and Tables; 6.1 Dielectric Material List; 6.2 Conductor Material List; References; A Nomenclature; A.1 Constants and Measurement Units; A.2 Acronyms and Abbreviations
- A.3 Defined Terms A.4 Variables; A.5 Symbols; B The Space Environment; B.1 Introduction to Space Environments; B.1.1 Quantitative Representations of the Space Environment; B.1.2 Data Sources; B.2 Geosynchronous Environments; B.2.1 Geosynchronous Plasma Environments; B.2.2 Geosynchronous High-Energy Environments; B.3 Other Earth Environments; B.3.1 MEO; B.3.2 PEO; B.3.3 Molniya Orbit; B.4 Other Space Environments; B.4.1 Solar Wind; B.4.2 Earth, Jupiter, and Saturn Magnetospheres Compared; References; C Environment, Electron Transport, and Spacecraft Charging Computer Codes
- C.1 Environment Codes C.1.1 AE8/AP8; C.1.2 CRRES; C.1.3 Flux Model for Internal Charging (FLUMIC); C.1.4 GIRE/SATRAD; C.1.5 Handbook of Geophysics and the Space Environment; C.1.6 L2 Charged Particle Environment (L2-CPE); C.1.7 MIL-STD-1809, Space Environment for USAF Space Vehicles; C.1.8 Geosynchronous Plasma Model; C.1.9 Others; C.2 Transport Codes; C.2.1 Cosmic Ray Effects on MicroElectronics 1996 (CREME96); C.2.2 EGS4; C.2.3 Geant4; C.2.4 Integrated TIGER Series (ITS); C.2.5 MCNP/MCNPE; C.2.6 NOVICE; C.2.7 NUMIT; C.2.8 SHIELDOSE; C.2.9 SPENVIS/DICTAT; C.2.10 TRIM; C.2.11 Summary
- C.3 Charging Codes
