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Switchmode Power Supply Handbook 3/e

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ISBN-10: 0071639713

ISBN-13: 9780071639712

Edition: 3rd 2011 (Revised)

Authors: Keith Billings, Taylor Morey

List price: $197.95
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Book details

List price: $197.95
Edition: 3rd
Copyright year: 2011
Publisher: McGraw-Hill Education (Australia) Pty Limited
Publication date: 10/12/2010
Binding: Hardcover
Pages: 832
Size: 6.40" wide x 9.40" long x 1.72" tall
Weight: 3.014
Language: English

Abraham Pressman was a nationally known power supply consultant whose background ranged from army radar officer to four decades as an analog-digital design engineer. Keith Billings is a practicing engineer with more than 40 years' experience in the design of switching power equipment.

Functions and Requirements Common to Most Direct Off-Line Switchmode Power Supplies
Common Requirements: An Overview
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 Converters
The Diagonal Half-Bridge 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
Duty-Ratio-Controlled Push-Pull Converters
DC-to-DC Switching Regulators
High-Frequency Saturable Reactor Power Regulator (Magnetic Duty Ratio Control)
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 Cores
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
Ripple Current Ratings for Electrolytic Capacitors
Noninductive Current Shunts
Current Transformers
Current Probes for Measurement Purposes
Thermal Management
Active Power Factor Correction
The Merits and Limitations of Hard Switching and Fully Resonant Switchmode Power Supplies
Quasi-Resonant Switching Converters
A Fully Resonant Self-Oscillating Current Fed FET Type Sine Wave Inverter
A Single Control Wide Range Sine Wave Oscillator