The definitive guide to switchmode power supply design--fully updated
Covering the latest developments and techniques, Switchmode Power Supply Handbook, third edition is a thorough revision of the industry-leading resource for power supply designers. New design methods required for powering small, high-performance electronic devices are presented. Based on the authors' decades of experience, the book is filled with real-world solutions and many nomograms, and features simplified theory and mathematical analysis.
This comprehensive volume explains common requirements for direct operation from the AC line supply and discusses design, theory, and practice. Engineering requirements of switchmode systems and recommendations for active power factor correction are included. This practical guide provides you with a working knowledge of the latest topologies along with step-by-step approaches to component decisions to achieve reliable and cost-effective power supply designs.
Switchmode Power Supply Handbook, third edition covers:
Die Inhaltsangabe kann sich auf eine andere Ausgabe dieses Titels beziehen.
The bestselling reference--packed with essential new material! The leading hands-on guide in this rapidly expanding area of electronics, Keith Billing's revision of the Switchmode Power Supply Handbook brings additional state-of-the-art techniques and developments to engineers at all levels. Offering sound working knowledge of the latest in topologies and clear, step-by-step approaches to component decisions, this handbook gives power supply designers practical, solutions-oriented design guidance, free of unnecessarily complicated mathematical derivations and theory. The Handbook features many new fully worked examples, as well as numerous nomograms--everything you need to design today's smaller, faster, and cooler systems. Turn to the new Part 4, and you'll find cutting-edge design expertise on: electronic ballast; power factor correction. In addition, the previously updated parts 1-3 still provide fully applicable sections on: thermal management techniques; transformers, chokes, input filters, EMI control, converters, snubber circuits, auxiliary systems, and much more.About the Author:
Keith Billings is a Chartered Electronic Engineer who has specialized in switchmode power supply design and manufacture for 45 years. He owns the consulting company DKB Power Inc. Mr. Billings was lead author on Switching Power Supply Design, Third Edition, filling in for the late Abraham Pressman, and he frequently presents Pressman’s four day course on power supply design and his own one day course on magnetics.
Taylor Morey is a Professor of Electronics Engineering Technology at Conestoga College Institute of Technology and Advanced Learning in Kitchener, Ontario, and design consultant with over 30 years experience in power supplies.
„Über diesen Titel“ kann sich auf eine andere Ausgabe dieses Titels beziehen.
Buchbeschreibung Mcgraw-Hill Education Ltd Okt 2010, 2010. Buch. Buchzustand: Neu. Neuware - The most comprehensive book on power supply design--fully updated with the latest techniques Switchmode Power Supply Handbook, Third Edition is a thoroughly overhauled edition of the industry-leading, practical guide for power supply designers. The book now addresses the new design techniques required for powering the small, high-performance electronic devices in use today. Based on the author s 45 years of experience, the book is filled with real-world solutions and avoids unnecessarily complicated mathematical derivations and theory. It provides practical techniques in power supply design and clear, step-by-step approaches to component decisions. The many worked examples included are based on actual working prototypes. In-depth topics such as electromagnetic interference, line filters, fuse selection, and active power factor correction are covered. Switchmode Power Supply Handbook, Third Edition features: New coverage of the latest techniques for powering modern electronics Highly visual layout with proven design examples throughout Supporting mathematical derivations in appendix form for easy access Coverage of the design of high-frequency transformers and chokes Worked problems at the end of each chapter Complete coverage of power supply design: Functions and Requirements Common to Most Direct-Off-Line; Switchmode Power Supplies; Common Requirements; AC Powerline Surge Protection; Electromagnetic Interference (EMI) in Switchmode Power Supplies; Faraday Screens; Fuse Selection; Line Rectification and Capacitor Input Filters for 'Direct Off-Line' Switchmode Power Supplies; Inrush Control; Start-Up Methods; Soft Start and Low-Voltage Inhibit; Turn-On Voltage Overshoot Prevention; Overvoltage Protection; Undervoltage Protection; Overload Protection; Foldback (Reentrant) Output Current Limiting; Base Drive Requirements for High-Voltage Bipolar Transistors; Proportional Drive Circuits for Bipolar Transistors; Antisaturation Techniques for High-Voltage Transistors; Snubber Networks; Cross Conduction; Output Filters; Power Failure Warning Circuits; Centering (Adjustment to Center) of Auxiliary Output Voltages on Multiple-Output Converters; Auxiliary Supply Systems; Parallel Operation of Voltage: Stabilized Power Supplies; Design: Theory and Practice; Multiple-Output Flyback Switchmode Power Supplies; Flyback Transformer Design; Reducing Transistor Switching Stress; Selecting Power Components for Flyback Converter; Self-Oscillating Direct-Off-Line Flyback Converters; Applying Current-Mode Control to Flyback Converters; Direct-Off-Line Single-Ended Forward Converters; Transformer Design for Forward Converters; Diagonal Half-Bridge Forward Converters; Transformer Design for Diagonal Half-Bridge Forward Converters; Half-Bridge Push-Pull Duty-Ratio-Controlled Converters; Bridge Converters; Low-Powered Self-Oscillating Auxiliary Converters; Single-Transformer Two-Transistor Self-Oscillating Converters; Two-Transformer Self-Oscillating Converters; The DC-to-DC Transformer Concept; Multiple-Output Compound Regulating Systems; DC-to-DC Switching Regulators; High-Frequency Saturable Reactor Power Regulators; Constant-Current Power Supplies; Variable Linear Power Supplies; Switchmode Variable Power Supplies; Switchmode Variable Power Supply Transformer Design; Applied Design; Inductors and Chokes in Switchmode Supplies; High-Current Chokes Using Iron Powder Chores; Choke Design Using Iron Powder Toroidal Cores; Switchmode Transformer Design: General Principles; Optimum 150-W Transformer Design Example Using Nomograms; Transformer Staircase Saturation; Flux Doubling; Stability and Control-Loop Compensation in SMPS; The Right-Half-Plane Zero; Current-Mode Control; Optocouplers; Ripple Current Ratings for Electrolytic Capacitors in Switchmode Power Supplies; Noninductive Current Shunts; Current Transformers; Current Probes for Measurement Purposes; Thermal Management; Active Power Factor Correction 832 pp. Englisch. Artikel-Nr. 9780071639712