| Description |
1 online resource (339 p.) |
| Series |
IEEE Press Ser |
|
IEEE Press Ser
|
| Contents |
Cover -- Title Page -- Copyright Page -- Contents -- About the Editor -- About the Contributors -- List of Reviewers -- Foreword by Albert H. Zimmerman and Ralph E. White -- Preface -- Acronyms and Abbreviations -- Chapter 1 Introduction -- 1.1 Introduction -- 1.2 Purpose -- 1.2.1 Background -- 1.2.2 Knowledge Management -- 1.3 History of Spacecraft Batteries -- 1.3.1 The Early Years - 1957 to 1975 -- 1.3.2 The Next Generation - 1975 to 2000 -- 1.3.3 The Li-ion Revolution - 2000 to Present -- 1.4 State of Practice -- 1.4.1 Raw Materials Supply Chain -- 1.4.2 COTS and Custom Li-ion Cells |
|
1.4.3 Hazard Safety and Controls -- 1.4.4 Acquisition Strategies -- 1.5 About the Book -- 1.5.1 Organization -- 1.5.2 Space Li-ion Cells and Batteries -- 1.5.3 Electrical Power System -- 1.5.4 On-Orbit LIB Experience -- 1.5.5 Safety and Reliability -- 1.5.6 Life Cycle Testing -- 1.5.7 Ground Processing and Mission Operations -- 1.6 Summary -- References -- Chapter 2 Space Lithium-Ion Cells -- 2.1 Introduction -- 2.1.1 Types of Space Battery Cells -- 2.1.2 Rechargeable Space Cells -- 2.1.3 Non-Rechargeable Space Cells -- 2.1.4 Specialty Reserve Space Cells -- 2.2 Definitions -- 2.2.1 Capacity |
|
2.2.2 Energy -- 2.2.3 Depth-of-Discharge -- 2.3 Cell Components -- 2.3.1 Positive Electrode -- 2.3.2 Negative Electrode -- 2.3.3 Electrolytes -- 2.3.4 Separators -- 2.3.5 Safety Devices -- 2.4 Cell Geometry -- 2.4.1 Standardization -- 2.4.2 Cylindrical -- 2.4.3 Prismatic -- 2.4.4 Elliptical-Cylindrical -- 2.4.5 Pouch -- 2.5 Cell Requirements -- 2.5.1 Specification -- 2.5.2 Capacity and Energy -- 2.5.3 Operating Voltage -- 2.5.4 Mass and Volume -- 2.5.5 DC Resistance -- 2.5.6 Self-Discharge Rate -- 2.5.7 Environments -- 2.5.8 Lifetime -- 2.5.9 Cycle Life -- 2.5.10 Safety and Reliability |
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2.6 Cell Performance Characteristics -- 2.6.1 Charge and Discharge Voltage -- 2.6.2 Capacity -- 2.6.3 Energy -- 2.6.4 Internal Resistance -- 2.6.5 Depth of Discharge -- 2.6.6 Life Cycle -- 2.7 Cell Qualification Testing -- 2.7.1 Test Descriptions -- 2.8 Cell Screening and Acceptance Testing -- 2.8.1 Screening -- 2.8.2 Lot Definition -- 2.8.3 Acceptance Testing -- 2.9 Summary -- Acknowledgments -- References -- Chapter 3 Space Lithium-Ion Batteries -- 3.1 Introduction -- 3.2 Requirements -- 3.2.1 Battery Requirements Specification -- 3.2.2 Statement of Work -- 3.2.3 Voltage -- 3.2.4 Capacity |
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3.2.5 Mass and Volume -- 3.2.6 Cycle Life -- 3.2.7 Environments -- 3.3 Cell Selection and Matching -- 3.3.1 Selection Methodologies -- 3.3.2 Matching Process -- 3.4 Mission-Specific Characteristics -- 3.4.1 LIB Sizing -- 3.4.2 GEO Missions -- 3.4.3 LEO Missions -- 3.4.4 MEO and HEO Missions -- 3.4.5 Lagrange Orbit Missions -- 3.5 Interfaces -- 3.5.1 Electrical -- 3.5.2 Mechanical -- 3.5.3 Thermal -- 3.6 Battery Design -- 3.6.1 Electrical -- 3.6.2 Mechanical -- 3.6.3 Thermal -- 3.6.4 Materials, Parts, and Processes -- 3.6.5 Safety and Reliability -- 3.7 Battery Testing |
| Notes |
Description based upon print version of record |
|
3.7.1 Test Requirements and Planning |
| Subject |
Space vehicles -- Batteries.
|
|
Lithium ion batteries.
|
|
Lithium ion batteries
|
|
Space vehicles -- Batteries
|
| Form |
Electronic book
|
| ISBN |
111977215X |
|
9781119772156 |
|
1119772176 |
|
9781119772170 |
|
