Inductive Devices in Power Electronics

Part 1: Magnetic Materials and Winding Concepts

Chapter 1: Soft Ferrite Materials for High Frequency Applications
Chapter 2: Metallic Magnetic Materials
Chapter 3: Powdered Magnetic Materials
Chapter 4: Measurement Methods for Magnetic Properties of ?m-Thick Steels Used for High-Frequency Inductor Cores
Chapter 5: Winding types in high frequency power electronics applications
Chapter 6: Magnetic Material Selection for Power Inductors and Transformers



Part 2: Modelling

Chapter 7: Modelling of Inductive Components for Simulation in Power Electronic Applications
Chapter 8: Measuring Magnetic Core Loss
Chapter 9: Software for Inductive Components



Part 3: Concepts on Magnetic Flux Coupling

Chapter 10: Use of Permanent Magnets in Power Electronics Applications
Chapter 11: Orthogonal Magnetisation in power electronics Applications
Chapter 12: Multiple Coupled Phases using Iron-Based Tape-Wound Cores



Part 4: Integrated Inductive Components and Design for High Frequencies

Chapter 13: Design of Integrated Inductive Components for High-Power Converters With and Without Insulation
Chapter 14: Considerations for Design Optimization of High Power Medium Frequency Transformers
Chapter 15: Multiwinding Transformer-based Solid-State Transformers
Chapter 16: Design of High Frequency Magnetic Components for Resonant Converter
Chapter 17: Magnetic materials and devices for EMI filtering
Chapter 18: Common Mode and Differential Mode Suppression in Power Electronic Systems
Chapter 19: Active Ripple Cancellation

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• A eficiência energética

inductive components; semiconductors; magnetization losses; eddy currents; switching; switching frequencies; switches; power converters; power electronics machines and drives; power density; power devices; device design