Passive device design and layout 6.1 Ring inductor 6.2 The classic coil 6.3 Spirals 6.4 Symmetric inductors 6.5 Multilayer inductors 6.6 Inductor equivalent circuit models 6.7 Integrated capacitors 6.8 Calculation by means of the vector potential 6.9 References 6.10 Appendix: Filamental partial mutual inductanceġ37 137 141 143 145 147 149 150 153 165 165 Partial inductance and return currents Impedance and quality factor Frequency response of inductors Quality factor of inductors Inductors and switching circuits Preview: how inductors mutate into capacitors References Inductance 5.1 Introduction 5.2 Inductance 5.3 Magnetic energy and inductance 5.4 Discussion of inductance Resistance 3.1 Ohm’s Law 3.2 Conduction in semiconductors 3.3 Diffusion 3.4 Thermal noise 3.5 ReferencesĪmp`ere, Faraday, and Maxwell 4.1 Amp`ere: static magnetic fields 4.2 Magnetic materials 4.3 Faraday’s big discovery 4.4 Maxwell’s displacement current 4.5 References Introduction 1.1 Motivation 1.2 System in Package (SiP): chip and package co-design 1.3 Future wireless communication systems 1.4 Circuits and electromagnetic simulationĬapacitance 2.1 Electrostatics review 2.2 Capacitance 2.3 Non-linear capacitance 2.4 References First published in print format 2007 ISBN-13 ISBN-10ĩ78-9-3 eBook (NetLibrary) 9-7 eBook (NetLibrary)Ĭambridge University Press has no responsibility for the persistence or accuracy of urls for external or third-party internet websites referred to in this publication, and does not guarantee that any content on such websites is, or will remain, accurate or appropriate. Subject to statutory exception and to the provision of relevant collective licensing agreements, no reproduction of any part may take place without the written permission of Cambridge University Press. N I K N EJ A DĬambridge, New York, Melbourne, Madrid, Cape Town, Singapore, São Paulo Cambridge University Press The Edinburgh Building, Cambridge CB2 8RU, UK Published in the United States of America by Cambridge University Press, New York Information on this title: © Cambridge University Press 2007 This publication is in copyright. He has also served as an associate editor of the IEEE Journal of Solid-State Circuits, and was a co-recipient of the Jack Raper Award for Outstanding Technology Directions Paper at ISSCC 2004.Įlectromagnetics for High-Speed Analog and Digital Communication Circuits ALI M. Before his appointment at Berkeley, Niknejad worked for several years in industry designing CMOS and SiGe ICs. He is a faculty director at the Berkeley Wireless Research Center (BWRC) and the co-director of the BSIM Research Group. in 2000 from the University of California, Berkeley, where he is currently an associate professor in the EECS department. Further resources for this title are available at a l i m. With up-to-date results, techniques, practical examples, many illustrations, and worked examples, this book will be valuable to advanced undergraduate and graduate students of electrical engineering and practitioners in the IC design industry. State-of-the-art developments in Si-based broadband analog, RF, microwave, and mm-wave circuits are also covered. Using examples and applications in RF and microwave systems, the author describes transmission lines, transformers, and distributed circuits. The author begins with a review of the basics: the origin of resistance, capacitance, and inductance, from a circuit and field perspective then progresses to more advanced topics such as passive device design and layout, resonant circuits, impedance matching, highspeed switching circuits, and parasitic coupling and isolation techniques. This book reviews the fundamentals of electromagnetism as applied to passive and active circuit elements, highlighting the various effects and potential problems in designing a new circuit. Electromagnetics for High-Speed Analog and Digital Communication Circuits Modern communications technology demands smaller, faster, and more efficient circuits, the design of which requires a good understanding of circuit theory and electromagnetics.
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