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" Theory and methods of quantification design on system-level electromagnetic compatibility / "
Donglin Su, Shuguo Xie, Fei Dai, Yan Liu, Yunfeng Jia.
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BL
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| Record Number
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891278
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| Main Entry
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Su, Donglin
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| Title & Author
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Theory and methods of quantification design on system-level electromagnetic compatibility /\ Donglin Su, Shuguo Xie, Fei Dai, Yan Liu, Yunfeng Jia.
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| Publication Statement
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Singapore :: Springer ;Beijing :: National Defense Industry Press,, [2019]
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| Page. NO
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1 online resource :: illustrations
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| ISBN
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9789811336898
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: 9789811336904
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: 9789811336911
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: 981133689X
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: 9811336903
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: 9811336911
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9789811336898
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| Bibliographies/Indexes
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Includes bibliographical references.
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| Contents
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Intro; Foreword; Preface; Contents; Symbols; Electromagnetic Compatibility Fundamental Theories; 1 Electromagnetic Field and Wave; 1.1 The Physical Meaning of Maxwell's Equations; 1.1.1 Basic Source Variables; 1.1.2 Basic Field Variables; 1.1.3 Maxwell's Equations in Free Space; 1.1.4 Physical Meaning of Maxwell's Equations; 1.1.5 The Overall Physical Meaning of Maxwell's Equations; 1.2 Electromagnetic Power Flux; 1.2.1 The Transmission of Electromagnetic Power Flux; 1.2.2 Capacitors-Electrical Energy Storage; 1.2.3 Inductor-Magnetic Energy Storage
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1.2.4 Examples of Device Properties Analysis1.3 The Reflection of Electromagnetic Wave; 1.3.1 Boundary Conditions of the Electromagnetic Field on the Ideal Conductor Surface; 1.3.2 Air Electric Wall; 2 Microwave Technology; 2.1 The Theory of Microwave Transmission Line; 2.1.1 Overview of Microwave Transmission Line; 2.1.2 Transmission State and Cutoff State in the Microwave Transmission Line; 2.1.3 The Concept of TEM Mode, TE Mode, and TM Mode in Microwave Transmission Line; 2.1.4 Main Characteristics of the Coaxial Line [4]; 2.1.5 Main Characteristics of the Waveguide Transmission Line
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2.1.6 The Distributed Parameter Effect of Microwave Transmission Line2.2 Application of Transmission Line Theories in EMC Research; 2.2.1 Application of the Single-Conductor Transmission Lines in EMC Research; 2.2.2 Application of Multi-conductor Transmission Lines in EMC; 3 Antenna Theory and Engineering; 3.1 Field of Alternating Electric Dipole; 3.1.1 Near Field; 3.1.2 Far Field; 3.2 Basic Antenna Concepts; 3.2.1 Directivity Function and Pattern; 3.2.2 Radiation Power; 3.2.3 Radiation Resistance; 3.2.4 Antenna Beamwidth and Gain
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3.2.5 The Impact of Antenna Out-of-Band Characteristics Toward Aircraft EMC3.2.6 Antenna Feed System; Methods and Applications of Quantitative System-Level EMC Design; 4 Basic Concepts of Quantitative System-Level EMC Design; 4.1 Basic Definitions of EMC; 4.1.1 Electromagnetic Interference; 4.1.2 Electromagnetic Compatibility; 4.1.3 Electromagnetic Vulnerability; 4.1.4 Electromagnetic Environment; 4.1.5 Electromagnetic Environment Effect; 4.1.6 Electromagnetic Environment Adaptability; 4.1.7 Spectrum Management; 4.1.8 Spectrum Certification; 4.1.9 Spectrum Supportability
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4.2 Essences of Quantitative EMC Design4.2.1 Identification of Electromagnetic Coupling Elements; 4.2.2 Three Stages of EMC Technology Development; 4.2.3 System-Level EMC; 4.2.4 Characteristics of System-Level EMC; 4.2.5 Interpretations of the EMI in Different Fields; 4.3 Basic Concept of EMC Quantitative Design; 4.3.1 Interference Correlation Relationship; 4.3.2 Interference Correlation Matrix; 4.3.3 System-Level EMC Requirements and Indicators; 4.3.4 Electromagnetic Emission Profile and Electromagnetic Susceptibility Profile; 4.3.5 Equipment Isolation
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| Abstract
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This book systematically explains the fundamentals of system-level electromagnetic compatibility and introduces the basic concept of system-level electromagnetic compatibility quantification design. The topics covered include the critical technologies in the top-down quantification design of electromagnetic compatibility, quantification design of system-level electromagnetic compatibility, evaluation methods and application examples, quality control and application examples of electromagnetic compatibility development process, and real-world engineering example analysis of electromagnetic compatibility. The book proposes a top-down system-level electromagnetic compatibility quantification design method and is the first book to describe in detail how to quantitatively evaluate and predict system-level electromagnetic compatibility performance. It includes abundant engineering examples and experimental data demonstrating the usage and results of the top-down quantification design methods of system-level electromagnetic compatibility. It enables readers to obtain a thorough understanding of the theory and methods of system-level electromagnetic compatibility quantification design as well as the methodologies for engineering practice.
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Electromagnetic compatibility-- Design.
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Microwaves.
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Systems engineering.
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TECHNOLOGY ENGINEERING-- Mechanical.
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| Dewey Classification
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621.382/4
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| LC Classification
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TK7867.2.S784 2019
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| Added Entry
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Dai, Fei
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Jia, Yunfeng
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Liu, Yan
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Xie, Shuguo
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