Principles of Electromagnetic Compatibility: Laboratory Exercises and Lectures, 電磁両立性の原理: 実験演習と講義, 9781119718734, 978-1-119-71873-4【電子書籍 / 1ユーザー】
御見積ご希望の場合は別途お問い合わせください。
Description
Electromagnetic compatibility (EMC), the ability of a device or system to maintain its operations in an electromagnetic environment without interference with itself or other devices, is a fundamental component of any electrical engineering design process. Understanding the basic principles of EMC is essential to undertaking even the most basic project; this understanding is attained by reinforcing the theory with laboratory exercises.
Principles of Electromagnetic Compatibility is one of the first textbooks on EMC principles that includes laboratory exercises at the end of each chapter, that any engineer or student can perform with standard EMC laboratory equipment. This enables readers to connect theory to practice and combines general precepts with supporting simulations and hands-on experimentation. The result is an indispensable guide to this cornerstone of electrical engineering.
Principles of Electromagnetic Compatibility readers will also find:
- ALTIUM files available online which allow users to create and print their own circuit boards
- Detailed treatment of subjects including Frequency Spectra, EM Coupling Mechanisms, Non-Ideal Components, Power Distribution Network, EMC Filters, Transmission Lines, Radiation, Shielding, Return Current Flow, and more
Contents:
1 Frequency Spectra of Digital Signals
2 EM Coupling Mechanisms
3 Non-Ideal Behavior of Passive Components
4 Power Distribution Network
5 EMC Filters
6 Transmission Lines ? Time Domain
7 Transmission Lines ? Frequency Domain
8 Antennas and Radiation
9 Differential- and Common-Mode Currents and Radiation
10 Return-Current Path, Flow, and Distribution
11 Shielding to Prevent Radiation
12 SMPS Design for EMC
A Evaluation of EMC Emissions and Ground Techniques on 1- and 2-Layer PCBs with Power Converters 503
A. 1 Top-Level Description of the Design Problem
A. 2 DC/DC Converter - Baseline EMC Emissions Evaluation
A. 3 DC/DC Converter - EMC Countermeasures - Radiated Emissions Results
A. 4 DC/DC Converter - EMC Countermeasures - Conducted Emissions Results - Voltage Method
A. 5 DC/DC Converter - EMC Countermeasures - Conducted Emissions Results ? Current Method
A. 6 PCB Layout Considerations
A. 7 AC/DC Converter Design with EMC Considerations
A. 8 AC/DC Converter - Baseline EMC Emissions Evaluation
A. 9 AC/DC Converter - EMC Countermeasures - Conducted and Radiated Emissions Results
A. 10 Complete System - Conducted and Radiated Emissions Results