Designing electronic systems for EMC
This book reviews developments in the following topics: electronic system design; EMC; shielding theory; protection technique; bonding; grounding; filter; ferrite; isolator; transient suppressor; cable; and connector.
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| Main Author | |
|---|---|
| Format | Electronic eBook |
| Language | English |
| Published |
Raleigh, NC :
SciTech Pub.,
©2011.
|
| Series | The SciTech series on electromagnetic compatibility
|
| Subjects | |
| Online Access | Full text |
| ISBN | 1613531052 9781613531051 9781621988281 1621988287 9781891121425 1891121421 |
| Physical Description | 1 online resource (xxvi, 278 pages) : illustrations |
Cover
Table of Contents:
- Preface; Acknowledgment; Some EMC-Related and Metric Terms and Acronyms; Common Terms and Abbreviations in EMC Literature; Military EMI/EMC Standards; Chapter 1. Introduction to Electronic System Design for EMC; 1.1 Effects of EMI; 1.2 Sources of EMI; 1.3 Modes of Coupling; 1.4 Susceptible Equipments; 1.5 EMC Design Consideration vs. System Life Cycle; 1.5.1 System Definition Phase; 1.5.2 System Design and Development; 1.5.3 System Operation; 1.6 Overview of Handbook; Suggested Readings: EMI/EMC; Chapter 2. Basic Terms and Definitions; 2.1 Decibels; 2.2 EMI Conducted Terminology
- 2.3 EMI Radiated Terminology2.4 Representation of Signals in the Time and Frequency Domains; 2.4.1 Fourier Series; 2.4.2 Fourier Transform; 2.4.3 Spectral Representation; 2.5 Transients; 2.5.1 Transient Sources; 2.6 Narrowband Emissions; 2.7 Broadband Emissions; 2.7.1 Incoherent Broadband Emission; 2.8 Frequency and Wavelength; 2.9 Units of Measure for EMI Signals; Suggested Readings: Basic Terms and Definitions; Chapter 3. Communication Systems EMC; 3.1 Communication System EMI Problems; 3.2 EMI Interactions between Transmitters and Receivers; 3.3 EMC Design of Communication Systems
- 3.4 Transmitter Emission Characteristics3.4.1 Fundamental Emissions; 3.4.2 Transmitter Intermodulation; 3.4.3 Harmonic Emission Levels; 3.5 Receiver Susceptibility Characteristics; 3.5.1 Co-channel Interference; 3.5.2 Receiver Adjacent-Signal Interference; 3.5.3 Receiver Spurious Responses; 3.6 Antenna Radiation Characteristics; 3.6.1 Design Frequency and Polarization; 3.6.2 Polarization Dependence; 3.6.3 Nondesign Frequencies; 3.7 Propagation Effects; 3.8 Sample EMC Assessment; 3.8.1 Transmitter Noise; 3.8.2 Intermodulation; 3.8.3 Out-of-Band EMI; 3.9 Computer EMC Analysis
- Suggested Readings: Communication Systems EMCChapter 4. Electronic System Design for EMC; 4.1 Basic Elements of EMI Problems; 4.1.1 Sources of EMI; 4.1.2 EMI Modes of Coupling; 4.1.3 Susceptible Equipments; 4.2 System-Level EMI Control; Suggested Readings: Electronic System Design for EMC; Chapter 5. Grounding for the Control of EMI; 5.1 Definitions; 5.2 Characteristics of Grounding Systems; 5.2.1 Impedance Characteristics; 5.2.2 Antenna Characteristics; 5.3 Ground-Related Interference; 5.4 Circuit, Equipment, and System Grounding; 5.4.1 Single-Point Grounding Scheme
- 5.4.2 Multipoint Grounding Scheme5.4.3 Selection of a Grounding Scheme; 5.5 Ground System Configurations; 5.6 EMI Control Devices and Techniques; Suggested Readings: Grounding; Chapter 6. Shielding Theory, Materials, and Protection Techniques; 6.1 Field Theory; 6.2 Shielding Theory; 6.2.1 Absorption Loss; 6.2.2 Reflection Loss; 6.2.3 Reflection Loss to Plane Waves; 6.2.4 Reflection Loss to Electric and Magnetic Fields; 6.2.5 Composite Absorption and Reflection Loss; 6.3 Shielding Materials; 6.4 EMI Shield Compartments and Equipments; 6.5 Shielding Integrity Protection