Details

Electromagnetic Field and Wave.- Microwave Technology.- Antenna Theory and Engineering.- Basic Concepts of Quantification System-Level EMC Design.- Critical Techniques of Quantification System-Level EMC Design.- Cases of System-Level Quantification Design and Evaluation.- EMC Evaluation and Quality Control Methodologies.- EMC Engineering Case Analyses.- Appendix A Software platform Descriptions for Quantification System-Level EMC Design.- Appendix B  Software for Aircraft EMC Evaluation in Different Phases.- Appendix C  Software for Aircraft EMC Management.

<b>Donglin Su,</b> received the B.Eng. and M.Eng. degrees, all in Electronic Engineering from Beihang University, Beijing, China, in 1983 and 1986, respectively, and Ph.D. degree(1996.7~1998.8 in UCLA) from Beihang University in 1999 (under the BUAA-UCLA joint Ph.D. project, 1996.7~1998.8 in UCLA). She is currently a professor in School of Electronics and Information Engineering, Beihang University. She has authored 4 books (including 2 textbooks), translated 1 book and published more than 60 papers in national and international journals. Besides, she has published more than 140 authorized patents (45 patents as first author)<i>.&nbsp;</i>Prof. Su is widely recognized in the EMC field. She is the Chair of Beijing Chapter of the <i>IEEE Antennas and Propagation Society</i> and the Deputy Chair of the <i>Antennas Society, Chinese Institute of Electronics</i>. She is the reviewer of several journals including <i>IEEE Transactions on Electromagnetic Compatibility, IEEE Transactions on Industrial Electronics, </i>and <i>Journal of Beijing University of Aeronautics and Astronautics</i>. Prof. Su is the PI for more than 20 research projects under Major Basic Research Plan for National Project of China (973 program), Special-funded Program on National Key Scientific Instruments and Equipment Development and National Natural Science Foundation of China (Key Program). She was a recipient of two<i> State Scientific and Technological Progress Awards</i> (2nd Grade, 1^st List)in 2007 and 2012, respectively. Besides, she received <i>The National Defense Science and Technological Progress Awards</i> (1st Grade) in 2010, and <i>Defense Technology Invention Award</i> (1st Grade) in 2017.Her research interests lie in Electromagnetic Compatibility, Antenna Theory and Engineering and Microwave Technology.<p><b>Shuguo Xie</b>, received his Ph.D. degree in Radio Physics from Wuhan University in 2001. He is currently a professor and the dean of Electronic Science and TechnologyDepartment, School of Electronic and Information Engineering, Beihang University. He has published more than 80 papers, 2 books and 28 authorized patents. He is the member of the special committee for the complex radiation field of <i>China Ordnance Society</i>, the special committee for electromagnetic spectrum of <i>Communication and Control Society</i>. Prof. Xie is the recipient of two <i>State Scientific and Technological Progress Awards</i> (2nd Grade), two First Class Prize of <i>The National Defense Science and Technology Progress Award</i> and one First Class Prize of <i>Defense Technology Invention Award.</i> His research area includes evaluation and design of EMC for complex system, EMC modeling of electronic equipment, imaging and locating of EMI, testing method and testing system of EMC, radio propagation, antenna and radar signal processing.</p>

<p><b>Fei Dai,</b> received his bachelor degree in Test Technology and Instrumentation from Anhui University of Technology in 1999, and the Ph.D. degree in Circuits and Systems from Beihang University in 2007. He is currently an associate professor in School of Electronic and Information Engineering, Beihang University. He has published more than 70 papers and 50 patents. He is the recipient of National Natural Science Foundation of China, from 2015 to 2019 under the topic of the mechanism and test methods of hazards of electromagnetic radiation to fuel. He was awarded <i>State Scientific and Technological Progress Award</i> (2nd Grade) in 2012. His research interests are system level EMC simulation and EMC testing technology.</p>

<p><b>Yan Liu,</b> received his bachelor and master degree from Air Force Engineering University, China, in 1996 and 2003. He received his Ph.D. degree in School of Electronic and Information Engineering from Beihang University, Beijing, China, in 2008. He is currently working in BUAA EMC Technology Institute. He is the recipient of <i>The National Defense Science and Technology Progress Award </i>(1st Grade, List 4th) in 2010, <i>The National Defense Science and Technology Progress Award</i> (1st Grade, List 12th) in 2011, and <i>Defense Technology Invention Award </i>(2nd Grade, List 4th) in 2014. His research interests lie in electromagnetic environment effect, EMC Design and Evaluation, EMC Testing Technology, radio propagation and radar signal processing.</p>

<b>Yunfeng Jia,</b> received the B.Eng., M.Eng. and Ph.D. degrees, all in Applied Physics from National University of Defense Technology, China. He is currently a senior engineer in School of Electronics and Information Engineering, Beihang University, Beijing, China. He has published more than 20 publications, and received Second Prize in <i>National Defense Invention Award</i>, 2014. He hosts more than 20 projects including National Natural Science Foundation of China, Pre-research: Simulation and prediction of electromagnetic compatibility of complex system, Aviation Science Fund and so on. His research interests include simulation, prediction, design and evaluation of EMC of Helicopters.

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.<div>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.</div><div>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.</div><div><br></div>

Proposes a top-down EMC quantification design method for the prediction and analysis of system-level EMC Provides indicators to quantitatively evaluate the performance of system’s EMC Describes eight categories of EMC design indicators and four categories of experimental indicators Offers a modeling method for EMC of complex systems or systems with incomplete design parameters Presents evaluation and quality control methods for EMC based on expert system