John Wiley & Sons, 872 p. Publication date: August 2009,
ISBN#: 978-0-470-18930-6.
Electromagnetic Compatibility Engineering started out being a third edition to my best selling book Noise Reduction Techniques in Electronic Systems, 2nd edition., but it tued out to be much more than that, hence, the title change. Nine of the original twelve chapters were completely rewritten. In addition, there are six new chapters, plus two new appendices, with over 600 pages of new and revised material (including 342 new figures). Most of the new material relates to the practical application of the theory of electromagnetic compatibility (EMC) engineering, and it is based on experience gained from my EMC consulting work, and the teaching of EMC training seminars over the last 20 plus years.
This book is intended primarily for the practicing engineer who is involved in the design of electronic equipment or systems and is faced with EMC and regulatory compliance issues. It addresses the practical aspects of electromagnetic compatibility engineering, covering both emission and immunity. The concepts presented in this book are applicable to analog and digital circuits operating from below audio frequencies up to those operating in the GHz range. Emphasis is on cost-effective EMC designs. Electromagnetic Compatibility Engineering is the most comprehensive book on the subject and reflects all the latest advances and developments in the field.
1. Electromagnetic Compatibility
2. Cabling
3. Grounding
4. Balancing and Filtering
5. Passive Components
6. Shielding
7. Contact Protection
8. Intrinsic Noise Sources
9. Active Device Noise
10. Digital Circuit Grounding
11. Digital Circuit Power Distribution
12. Digital Circuit Radiation
13. Conducted Emission
14. RF and Transient Immunity
15. Electrostatic Discharge
16. PCB Layout and Syackup
17. Mixed-Signal PCB Layout
18. Precompliance EMC Measurements
Appendix A. The Decibel
Appendix B. The Ten Best Ways to Maximize the Emission From Your Product
Appendix C. Multiple Reflection of Magnetic Fields in Thin Shields
Appendix D. Dipoles for Dummies
Appendix E. Partial Inductance
Appendix F. Answers to Problems
ISBN#: 978-0-470-18930-6.
Electromagnetic Compatibility Engineering started out being a third edition to my best selling book Noise Reduction Techniques in Electronic Systems, 2nd edition., but it tued out to be much more than that, hence, the title change. Nine of the original twelve chapters were completely rewritten. In addition, there are six new chapters, plus two new appendices, with over 600 pages of new and revised material (including 342 new figures). Most of the new material relates to the practical application of the theory of electromagnetic compatibility (EMC) engineering, and it is based on experience gained from my EMC consulting work, and the teaching of EMC training seminars over the last 20 plus years.
This book is intended primarily for the practicing engineer who is involved in the design of electronic equipment or systems and is faced with EMC and regulatory compliance issues. It addresses the practical aspects of electromagnetic compatibility engineering, covering both emission and immunity. The concepts presented in this book are applicable to analog and digital circuits operating from below audio frequencies up to those operating in the GHz range. Emphasis is on cost-effective EMC designs. Electromagnetic Compatibility Engineering is the most comprehensive book on the subject and reflects all the latest advances and developments in the field.
1. Electromagnetic Compatibility
2. Cabling
3. Grounding
4. Balancing and Filtering
5. Passive Components
6. Shielding
7. Contact Protection
8. Intrinsic Noise Sources
9. Active Device Noise
10. Digital Circuit Grounding
11. Digital Circuit Power Distribution
12. Digital Circuit Radiation
13. Conducted Emission
14. RF and Transient Immunity
15. Electrostatic Discharge
16. PCB Layout and Syackup
17. Mixed-Signal PCB Layout
18. Precompliance EMC Measurements
Appendix A. The Decibel
Appendix B. The Ten Best Ways to Maximize the Emission From Your Product
Appendix C. Multiple Reflection of Magnetic Fields in Thin Shields
Appendix D. Dipoles for Dummies
Appendix E. Partial Inductance
Appendix F. Answers to Problems