Electromagnetics for High-Speed Analog and Digital Communication Circuits (Hardcover)

Modern communications technology demands smaller, faster and more efficient circuits. This book reviews the fundamentals of electromagnetism in passive and active circuit elements, highlighting various effects and potential problems in designing a new circuit. The author begins with a review of the basics - the origin of resistance, capacitance, and inductance - then progresses to more advanced topics such as passive device design and layout, resonant circuits, impedance matching, high-speed switching circuits, and parasitic coupling and isolation techniques. Using examples and applications in RF and microwave systems, the author describes transmission lines, transformers, and distributed circuits. State-of-the-art developments in Si based broadband analog, RF, microwave, and mm-wave circuits are reviewed. With up-to-date results, techniques, practical examples, 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. Further resources for this title are available at www.cambridge.org/9780521853507.

• Combines electromagnetics and circuits, building on new circuit knowledge to teach classic material with a new focus, and bridging the gap between RF and microwave circuit theory

 • Further resources, including exercises, solutions and lecture notes, are available online at www.cambridge.org/9780521853507

 • Presents up-to-date results, techniques, applications and practical examples from the field, including measurement techniques, to allow the reader to gain real-world knowledge of electromagnetics

 

1. Introduction; 2. Capacitance; 3. Resistance; 4. Ampère, Faraday and Maxwell; 5. Inductance; 6. Passive deivce design and layout; 7. Resonance and impedance matching; 8. Small-signal high-speed amplifiers; 9. Transmission lines; 10. Transformers; 11. Distributed circuits; 12. High-speed switching circuits; 13. Magnetic and electrical coupling and isolation; 14. Electromagnetic propagation and radiation; 15. Microwave circuits.