Switching Power Supplies A - Z

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Book
July 2006
Elsevier Science and Technology
ID: 1764048

The design of Switching Power Supplies has become one of the most crucial aspects of power electronics, particularly in the explosive market for portable devices. Unfortunately, this seemingly simple mechanism is actually one of the most complex and under-estimated processes in Power Electronics. Switching power conversion involves several engineering disciplines: Semiconductor Physics, Thermal Management, Control Loop theory, Magnetics etc, and all these come into play eventually, in ways hard for non-experts to grasp.

This book grows out of decades of the author's experience designing commercial power supplies. Although his formal education was in physics, he learned the hard way what it took to succeed in designing power supplies for companies like Siemens and National Semiconductor. His passion for power supplies and his empathy for the practicing or aspiring power conversion engineer is evident on every page.

Chapter 1: The Principles of Switching Power Conversion
Chapter 2: DC-DC Converter Design and Magnetics
Chapter 3: Off-line Converter Design and Magnetics
Chapter 4: The Topology FAQ
Chapter 5: Conduction and Switching Losses
Chapter 6: Printed Circuit Board Layout
Chapter 7: Feedback Loop analysis and Stability
Chapter 8: EMI from the Ground U-Maxwell to CISPR
Chapter 9: Measurements and Limits of Conducted EMI
Chapter 10: Practical EMI Line Filters
Chapter 11: DM and CM Noise in Switching Power Supplies

Chapter 12: Fixing EMI across the Board

Chapter 13: Input Capacitor and Stability
Considerations in EMI Filters

Chapter 14: The Math behind the Electromagnetic Puzzle

Appendix 1: Focusing on Some Real-world Issues

Appendix 2: Reference Design Table

Authors

Sanjaya Maniktala CTO and Co-Founder, Chargedge, CA, USA. Sanjaya Maniktala is the author of several power electronics books and currently CTO of his own company, Chargedge. Mr. Maniktala earned several patents in power conversion and power over ethernet, including the floating buck regulator topology and mode transitioning in a buck-boost converter using a constant duty cycle difference technique. He initiated the first unified approach to switching topologies and was also the first to recognize, articulate and apply fundamental power and frequency scaling principles to resonant topologies, which resulted in the world's simplest one-page design methodology for LLC converters. Sanjaya holds degrees in physics from St. Stephen's College Delhi, IIT Bombay and Northwestern University Illinois. Professionally, he has worked in well-known companies such as Freescale, Siemens AG and Broadcom and spent over five years at National Semiconductor (now Texas Instruments) in Santa Clara, California.

Table of Contents

Authors

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