1 Introduction
1.1 Particularities of Spacecraft EMC
1.2 Main Methods of EMI Interface Control
1.3 Prospects for EMC Technology Development
1.3.1 Main Stages of EMC Technology Development
1.3.2 Main Problems at the Current Stage
1.3.3 Development Trends
1.4 Summary
2 Basic Knowledge of EMC and Methods of EMI Control
2.1 Basic Knowledge of EMC
2.1.1 Common EMC Terms and Definitions
2.1.2 Periodic Signal Spectrum Envelope of Digital Circuits
2.2 Brief Introduction of Spacecraft EMC Engineering Manual and Standards
2.3 Spacecraft Electrical Bonding
2.3.1 Functions of Electrical Bonding
2.3.2 Main Class of Electrical Bonding
2.3.3 Main Methods of Electrical Bonding
2.3.4 Cleaning and Protection of Bonding Surfaces
2.3.5 Verification of Bonding
2.4 Spacecraft Grounding
2.4.1 Overview
2.4.2 Types of Grounding System
2.4.3 Grounding Test and Verification Methods
2.5 Spacecraft Cable Layout and Shielding
2.5.1 EMC Classification of Circuits
2.5.2 Requirements for Cable Shielding and Grounding
2.5.3 Cable Harness Layout
2.6 Summary
3 Electromagnetic Compatibility Management
3.1 Overview of EMC Management Standards
3.2 The Spacecraft EMC Management
3.3 EMC Working Group
3.3.1 Responsibilities of the EMC Working Group
3.3.2 Tasks of the EMC Working Group
3.3.3 Responsibilities of EMC Working Group
3.4 EMC Control Program and Technical Requirements EMC
3.4.1 Purpose of the EMC Control Program
3.4.2 Contents of the EMC Control Program and Technical Requirements
3.5 EMC Test Program and Report
3.5.1 EMC Test Program
3.5.2 EMC Test Report
3.6 EMC Management in the Main Stages of Spacecraft Development
3.6.1 Feasibility Demonstration Stage
3.6.2 Scheme Stage
3.6.3 Proto Flight Model Development Stage
3.6.4 Flight Model Development Stage
3.7 Summary of Main EMC Work in Each Development Stage
3.8 Summary
4 Introduction to Spacecraft EMC Prediction Analysis Methods
4.1 EMC Electromagnetic Field Analysis Methods
4.1.1 Tasks and Characteristics of EMC Analysis
4.1.2 Electromagnetic Field Analysis Method for EMC
4.2 EM Field Numerical Analysis Method
4.2.1 Fundamentals of EM Field Analysis Method
4.2.2 Weighted Residual Method and Numerical Solution Method
4.3 Statistical Electromagnetics Analysis Method
4.3.1 Fundamentals of Statistical Electromagnetics
4.3.2 Analytical Methods of Statistical Electromagnetics
4.4 Analysis of Mutual Coupling S-Parameters Between Elements
4.4.1 Principle of Mutual Coupling Between Elements and Its Effect on EMC
4.4.2 Mutual Coupling S-Parameter Analysis Method Between Elements
……
5 Analysis of Spacecraft System-Level Electromagnetic Compatibility
6 EMC Design and Implementation of General Electronic Equipment
7 Typical Spacecraft electronic Component Selection and Module EMC Design
8 EMC Design and Rectification for Typical Equipment
9 Spacecraft Magnetic Design and Test Technology
10 EMC Test Verification of Spacecraft Electronic Equipment
11 Spacecraft System-Level EMC Test Verification
Bibliography
张华,中国空间技术研究院总体部研究员,航天器电磁兼容领域专家。中国空间技术研究院专业技术带头人、载人空间站工程电磁兼容专业组成员、中央军委装备发展部电磁兼容和防护专业组成员。负责行业电磁兼容标准制定和多个通信、载人、深空和导航等系列航天器的电磁兼容性论证工作。获多项航天科技集团科技进步奖等省部级奖项。
本书是北京理工大学出版社与Springer Nature联合出版图书。本书由中国空间技术研究院型号“两总”(即总指挥、总设计师)团队合力编著,系统阐述了航天器电磁兼容性管理、分析、设计、改进和试验验证方法,汇集了航天器电磁兼容领域研究的前沿成果,内容涉及航天器电磁兼容性预测分析、航天器系统级电磁兼容性分析、电子设备通用EMC设计和实施、航天器典型电子部件选用和模块EMC设计、航天器磁设计与试验技术、航天器电子设备EMC试验验证等11个章节。本书可作为从事航天器电磁兼容性技术、航天器总体设计及有关专业的科技人员以及政府决策人员提供参考。
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