Overview

The equipotential earth is a fundamental requirement of circuit theory, because it dramatically reduces the complexity of the mathematics required to simulate a circuit. Unfortunately, in the real world, no such equipotential earth exists, nor can it ever do so, which means simulating a circuit to evaluate its electromagnetic compatibility (EMC) and susceptibility to electromagnetic interference (EMI) is largely dependent on using the Maxwell equations. The Maxwell equations are inherently complex, however, and so have high processing power requirements and, as with all complex systems, there is a propensity to generate and magnify errors. Fortunately, the models provided in this book require far less processing power, as the mathematics required is far less complex than that of the Maxwell equations. These models are explained in a simple and straightforward manner, and can be used at the developmental stage of a project and redeployed in the testing stage before the manufacturing and product deployment stages are implemented. A review of the relationship of circuit theory with electromagnetic theory identifies a way of augmenting these analytical tools, and this enables circuit models to be developed to simulate all forms of EMI, thus effectively updating and extending circuit theory. The technique described in this book can be used to analyse all the mechanisms involved in the propagation of EMI. This approach avoids the need for endless debate on the topic of ground philosophy. Equally, it avoids the need to invoke the complexities of electromagnetic computation. The book is aimed at electrical and electronic design engineers and EMI/EMC design consultants.

Full Product Details

Author:   Ian B. Darney ,  Chris M. Hewitt (Fully Independent Technology Consultant)
Publisher:   Institution of Engineering and Technology
Imprint:   Institution of Engineering and Technology
ISBN:  

9781839539534

ISBN 10:   1839539534
Pages:   314
Publication Date:   05 March 2024
Audience:   College/higher education ,  Professional and scholarly ,  Tertiary & Higher Education ,  Professional & Vocational
Format:   Hardback
Publisher's Status:   Active
Availability:   In Print  
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Table of Contents

Chapter 1: Introduction Chapter 2: Cross coupling models Chapter 3: Multi-conductor models Chapter 4: Antenna models Chapter 5: Transient analysis Chapter 6: Three conductor transient models Chapter 7: Further EMC/EMI research Appendix A: Inductance and capacitance primitives Appendix B: Mathcad worksheets Appendix C: Links to Internet resources and references Appendix D: Definitions

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Author Information

Ian B. Darney (deceased) was a graduate of Glasgow University, UK. A highly knowledgeable electrical engineer, Mr Darney had extensive experience of EMC, particularly in the aircraft industry. He was a member of the IET and the European Organisation for Civil Aviation Equipment (EUROCAE). Chris M. Hewitt is an autonomous agent design engineer with nine years' HMRAF experience installing, repairing and calibrating radar and missile systems, alongside test and communication equipment. He is a recipient of the Support Command Certificate of Merit for 'Initiative and Inventiveness towards the improvement of engineering services of the RAF', with extensive knowledge of EMC/EMI. His current focus is on developing the AE42 concept; a gravity centric and empirical data approach to grand unification.

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