• Cover (1)
• Frontmatter (4)
  • Half Title Page (4)
  • Title Page (6)
  • Copyright (7)
  • Table of Contents (8)
  • Preface (12)
• Chapter 1: Why Use Switching Power Supplies? (14)
• Chapter 2: How a Switching Power Supply Works (18)
  • 2.1 Forward-Mode Switching Regulators (18)
  • 2.2 Flyback-Mode Switching Regulators (20)
• Chapter 3: A Walk through a Representative Switching Power Supply (22)
  • 3.1 The EMI Filter (22)
  • 3.2 Bulk Input Filter (Storage) Capacitor (22)
  • 3.3 Transformer (24)
  • 3.4 Power Switches (25)
  • 3.5 Output Rectifiers (25)
  • 3.6 The Output Filter Section (25)
  • 3.7 Current Sense Elements (26)
  • 3.8 Voltage Feedback Elements (26)
  • 3.9 The Control Section (27)
• Chapter 4: Switching Power Supply Topologies (30)
  • 4.1 Factors Affecting the Choice of an Appropriate Topology (30)
  • 4.2 Non-Transformer-Isolated Switching Power Supply Topologies (33)
  • 4.3 Transformer-Isolated Switching Power Supply Topologies (42)
• Chapter 5: Semiconductors Used in a Switching Power Supply (56)
  • 5.1 Bipolar Power Transistors (56)
  • 5.2 Power MOSFETs (63)
  • 5.3 Rectifiers (69)
  • 5.4 Switching Power Supply Control Integrated Circuits (71)
• Chapter 6: The Magnetic Components within a Switching Power Supply (80)
  • 6.1 Basic Magnetism and Ferromagnetism (81)
  • 6.2 The Forward-Mode Transformer (89)
  • 6.3 The Flyback Transformer (96)
  • 6.4 The Forward-Mode Filter Choke (103)
  • 6.5 Mutually Coupled Forward-Mode Filter Inductors (107)
• Chapter 7: Cross-Regulation of the Outputs (110)
  • 7.1 Transformer Techniques (112)
  • 7.2 The Voltage-Sensing Network (112)
  • 7.3 Mutually Coupled Output Filter Chokes (113)
• Chapter 8: Protection (116)
  • 8.1 Protecting the Supply and the Load from the Input line (116)
  • 8.2 Protecting the Load from the Supply and ltself (120)
• Chapter 9: Miscellaneous Topics (128)
  • 9.1 Power Supply and System Grounds (128)
  • 9.2 The Use and Design of Clamps and Snubbers (132)
  • 9.3 RFI and EMI Design Considerations (138)
  • 9.4 Power Supply and Product Safety Considerations (141)
  • 9.5 Testing Power Supply Units (145)
• Chapter 10: Closing the Loop-Feedback and Stability (154)
  • 10.1 The Bode Plot as a Basic Tool (154)
  • 10.2 Closing the Loop (158)
  • 10.3 The Stability Criteria Applied to Power Supplies (159)
  • 10.4 The Control-to-Output Transfer Functions of Common Switching Power Supply Topologies (161)
  • 10.5 Common Error Amplifier Compensation Techniques (167)
  • 10.6 Attempting to Compensate for a Right-Half-Plane Zero (180)
• Chapter 11: Resonant Converters - An Introduction (182)
  • 11.1 Why Resonant Switching Power Supplies? (183)
  • 11.2 Basic Quasi-Resonant Converter Operation (185)
  • 11.3 The Resonant Switch - A Method of Creating a Quasi-Resonant Family (191)
  • 11.4 The Zero-Voltage Quasi-Resonant Converter Family (194)
  • 11.5 Second-Side Resonance (199)
  • 11.6 Effects of Parasitic Elements within High-Frequency Supplies (202)
• Chapter 12: Switching Power Supply Design Examples (212)
  • 12.1 A Low-Cost, Low-Power Flyback Converter (212)
  • 12.2 A 100-kHz, 50-W, Off-Line, Half-Bridge Switching Power Supply (222)
  • 12.3 A 50-W, Parallel-Resonant, Half-Bridge, Quasi-Resonant Converter (233)
  • 12.4 A 60-W, Off-Line Flyback Converter with Battery Backup (240)
• Backmatter (248)
  • Bibliography (248)
  • Index (250)
• Back Cover (258)