A practical guide to EMC engineering

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Bibliographic Details
Main Author Sevgi, Levent (Author)
Format Electronic eBook
LanguageEnglish
Published Boston : Artech House, [2017]
SeriesArtech House electromagnetic analysis series.
Subjects
Electromagnetic compatibility.
elektronické knihy
electronic books
Online AccessFull text
ISBN9781630814007
1630814008
9781523116911
1523116919
9781630813833
1630813834
Physical Description1 online resource (xvi, 304 pages) : illustrations, charts

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TOC from ObalkyKnih.cz
Table of Contents:
  • A Practical Guide to EMC Engineering; Contents; Preface; 1 Introduction; 1.1 Electromagnetic Compatibility; 1.2 EM Fields in Our Environment; 1.2.1 Low-Frequency Magnetic Field Coupling; 1.2.2 Power Absorption from EM Fields; 1.2.3 Electromagnetic Levels in Our Environment; 1.2.4 Epilogue; 1.2.5 Risk Assessment and Precautionary Principle; 1.2.6 Simple EM Calculations; 1.3 EU EMC Directives; 1.4 CE Marking Process; 1.5 EMC Institutions and EMC Standards; 1.5.1 Commercial EMC Standards; 1.5.2 Military EMC Standards; 1.6 EMC Limiting Values; 1.7 EMC Tests and Measurements.
  • 1.8 EMC Engineering Philosophy1.9 Suggested EMC Approach; References; Bibliography; 2 Accreditation; 2.1 Introduction; 2.2 Accreditation; 2.3 Accreditation Institutions; 2.4 TÜRKAK; 2.5 EMC Tests and Measurements; 2.5.1 Features of EMC Tests and Measurements; 2.5.2 Calibration; 2.5.3 Reporting and Product Certification; 2.6 Proficiency Testing and Interlab Comparisons; References; Bibliography; 3 Electromagnetic Model; 3.1 Basic Electrical Engineering Theories; 3.2 Maxwell Equations; 3.3 EM Scattering, Diffraction, and Propagation; 3.3.1 EM Point and Line Sources; 3.3.2 EM Wave Polarization.
  • 3.3.3 EM Plane Waves and Wave Impedance3.3.4 EM Power Density; 3.3.5 EM Problem Groups; 3.3.6 EM Propagation Modes; 3.4 EM Materials and Skin Depth; 3.5 Electric and Magnetic Dipoles; 3.6 Typical Emissions; 3.7 EM Coupling Mechanisms; References; 4 Circuit Model; 4.1 Lumped Parameter Circuit Elements; 4.1.1 Conductor Wires; 4.1.2 Inductive Effect of a Conductor Wire; 4.1.3 Capacitive Effect of a Conductor Wire; 4.1.4 Realistic R/L/C Models; 4.2 Two-Port Circuit Definitions; 4.3 Resonance Circuits; 4.4 Cables and Transmission Line Model; 4.4.1 Characteristic Impedance.
  • 4.4.2 Propagation Constant4.4.3 Voltage Reflection Coefficient; 4.4.4 Voltage Standing Wave Ratio (VSWR); 4.5 Grounding; 4.6 Common Mode and Differential Mode Currents; 4.7 Nonlinearity Effects; 4.8 Two-Port Circuits and S-Parameters; 4.9 Microstipline Circuits; 4.9.1 Characteristics of a Microstripline; 4.9.2 Basic Microstrip Circuits; 4.10 Crosstalk; References; Bibliography; 5 Antennas and Antenna Calibration; 5.1 Fundamental Antenna Terms; 5.2 Communication Antennas; 5.3 EMC Antennas; 5.3.1 Receive Antenna and Antenna Factor; 5.3.2 Transmit Antenna Factor; 5.4 Antenna Calibration.
  • 5.5 Normalized Site Attenuation5.5.1 Theoretical NSA Calculations; 5.5.2 NSA Measurements; 5.5.3 Performing an Antenna Calibration; 5.5.4 Antenna Calibration with Pattern Measurements; 5.6 Loop Antennas; 5.7 Loop Antenna Calibration; 5.8 Antenna Arrays; 5.8.1 Arrays with Isotropic Radiators; 5.8.2 A MATLAB-Based ARRAY Package; 5.9 Antenna Types; 5.9.1 Electric and Magnetic Dipoles; 5.9.2 Wire Antennas; 5.9.3 Broadband EMC Antennas; 5.9.4 Log-Periodic Dipole Antenna; 5.9.5 Horn Antenna; References; Bibliography; 6 Noise and Frequency Analysis; 6.1 Fundamental Electromagnetic Signals; 6.2 Noise.

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