Inductive Devices in Power Electronics - Materials, Measurement, Design and Applications
During the rapid developments in semiconductor technology, the role of inductive components as a limitation for further improvements became clear. The challenges involve the magnetization losses and unwanted eddy currents at higher switching frequencies, which in turn limit the reduction of device v...
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| Main Author | |
|---|---|
| Format | eBook |
| Language | English |
| Published |
Stevenage
Institution of Engineering and Technology (The IET)
2025
Institution of Engineering & Technology Institution of Engineering and Technology |
| Edition | 1 |
| Series | Energy Engineering |
| Subjects | |
| Online Access | Get full text |
| ISBN | 1839534478 9781839534478 |
| DOI | 10.1049/PBPO203E |
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| Abstract | During the rapid developments in semiconductor technology, the role of inductive components as a limitation for further improvements became clear. The challenges involve the magnetization losses and unwanted eddy currents at higher switching frequencies, which in turn limit the reduction of device volumes. New materials and design approaches offer solutions. Furthermore, new topologies of power converters in connection with flexible digital controls and design of magnetic components offer ways to reduce the required component volume and increase the power density, which is especially important for mobile applications.This overview for researchers and experts in industry and academia, as well as for device manufacturers, presents a summary of important new developments to tackle unwanted effects in inductive components and to reduce device volumes. It is compiled by specialists in materials, device design and application of magnetic devices in power electronics. The focus is on practical advice and application examples to help readers solve their problems. Chapters cover soft ferrite materials, metallic magnetic and powdered magnetic materials, measurement of magnetic properties, magnetic material selection, modelling and software, permanent magnets, orthogonal magnetisation, multiple coupled phases, and integrated inductive components; further topics are high power medium frequency and solid-state transformers, high frequency magnetic components, EMI filtering, mode suppression, and ripple cancellation. |
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| AbstractList | A concise overview of key developments to tackle unwanted effects in inductive components and to reduce device volumes. Compiled by specialists, from industry and academia, the focus is on practical advice and application examples to help readers solve their problems. During the rapid developments in semiconductor technology, the role of inductive components as a limitation for further improvements became clear. The challenges involve the magnetization losses and unwanted eddy currents at higher switching frequencies, which in turn limit the reduction of device volumes. New materials and design approaches offer solutions. Furthermore, new topologies of power converters in connection with flexible digital controls and design of magnetic components offer ways to reduce the required component volume and increase the power density, which is especially important for mobile applications. During the rapid developments in semiconductor technology, the role of inductive components as a limitation for further improvements became clear. The challenges involve the magnetization losses and unwanted eddy currents at higher switching frequencies, which in turn limit the reduction of device volumes. New materials and design approaches offer solutions. Furthermore, new topologies of power converters in connection with flexible digital controls and design of magnetic components offer ways to reduce the required component volume and increase the power density, which is especially important for mobile applications.This overview for researchers and experts in industry and academia, as well as for device manufacturers, presents a summary of important new developments to tackle unwanted effects in inductive components and to reduce device volumes. It is compiled by specialists in materials, device design and application of magnetic devices in power electronics. The focus is on practical advice and application examples to help readers solve their problems. Chapters cover soft ferrite materials, metallic magnetic and powdered magnetic materials, measurement of magnetic properties, magnetic material selection, modelling and software, permanent magnets, orthogonal magnetisation, multiple coupled phases, and integrated inductive components; further topics are high power medium frequency and solid-state transformers, high frequency magnetic components, EMI filtering, mode suppression, and ripple cancellation. |
| Author | Zacharias Peter |
| Author_xml | – sequence: 1 fullname: Zacharias, Peter |
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| Copyright | 2025 |
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| DOI | 10.1049/PBPO203E |
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| PublicationSeriesTitle | Energy Engineering |
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| Publisher | Institution of Engineering and Technology (The IET) Institution of Engineering & Technology Institution of Engineering and Technology |
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| Snippet | During the rapid developments in semiconductor technology, the role of inductive components as a limitation for further improvements became clear. The... A concise overview of key developments to tackle unwanted effects in inductive components and to reduce device volumes. Compiled by specialists, from industry... |
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| SubjectTerms | Electronic Devices Electronics & Semiconductors Power electronics |
| TableOfContents | Title Page
Table of Contents
1. Soft Ferrite Materials for High-Frequency Applications
2. Metallic Magnetic Materials
3. Powdered Magnetic Materials
4. Measurement Methods for Magnetic Properties of μm-Thick Steels Used for High-Frequency Inductor Cores
5. Winding Types in High-Frequency Power Electronics Applications
6. Magnetic Material Selection for Power Inductors and Transformers
7. Modeling of Inductive Components for Simulation in Power Electronic Applications
8. Measuring Magnetic Core Loss
9. Software for Inductive Components
10. Use of Permanent Magnets in Power Electronics Applications
11. Orthogonal Magnetization in Power Electronics Applications
12. Multiple Coupled Phases Using Iron-Based Tape-Wound Cores
13. Design of Integrated Inductive Components for High-Power Converters with and without Insulation
14. Considerations for Design Optimization of High-Power Medium-Frequency Transformers
15. Multiwinding Transformer-Based Solid-State Transformers
16. Design of High-Frequency Magnetic Components for Resonant Converter
17. Magnetic Materials and Devices for EMI Filtering
18. Common Mode and Differential Mode Suppression in Power Electronic Systems
19. Active Ripple Cancelation
Conclusion: Wrap-up and Future Directions
Index 15. Multiwinding transformer-based solid-state transformers | Hamzeh Beiranvand, Fabian Groon, Yoann Pascal and Marco Liserre -- 16. Design of high-frequency magnetic components for resonant converter | Feng Jin, Zheqing Li and Qiang Li -- Part V: Selected application problems -- 17. Magnetic materials and devices for EMI filtering | Marcin Ka˛cki, Marek Ryłko, John G. Hayes and Charles R. Sullivan -- 18. Common mode and differential mode suppression in power electronic systems | Peter Zacharias and Peter Wallmeier -- 19. Active ripple cancelation | Peter Zacharias, Christian Noeding, Xiao Yu and Alejandro Aganza-Torres -- Conclusion -- Index Intro -- Contents -- Foreword -- About the editor -- Part I: Magnetic materials and winding concepts -- 1. Soft ferrite materials for high-frequency applications | Jonas Pfeiffer, Michael Baumann and Michael Schmidhuber -- 2. Metallic magnetic materials | Peter Zacharias, Jens Friebe and Christian P. Dick -- 3. Powdered magnetic materials | Lukas Mueller -- 4. Measurement methods for magnetic properties of mm-thick steels used for high-frequency inductor cores | Nguyen Gia Minh Thao, Jumpei Tanase, Koichiro Nambu and Keisuke Fujisaki -- 5. Winding types in high-frequency power electronics applications | Alexander Stadler and Lukas Reibenweber -- 6. Magnetic material selection for power inductors and transformers | Alyssa Brown, Elaine Ng and Alex Hanson -- Part II: Modelling -- 7. Modeling of inductive components for simulation in power electronic applications | Peter Zacharias and Alex Hanson -- 8. Measuring magnetic core loss | George Slama -- 9. Software for inductive components | Alfonso Martinez -- Part III: Concepts on magnetic flux coupling -- 10. Use of permanent magnets in power electronics applications | Jens Friebe and Lennart Hoffmann -- 11. Orthogonal magnetization in power electronics applications | Camilo Suarez Buitrago and Wilmar Martinez -- 12. Multiple coupled phases using iron-based tape-wound cores | Christian P. Dick, Valentin Wagner and Patrick Deck -- Part IV: Integrated inductive components and design for high frequencies -- 13. Design of integrated inductive components for high-power converters with and without insulation | Olympio Cipriano da Silva Filho and Demercil de Souza Oliveira Junior -- 14. Considerations for design optimization of high-power medium-frequency transformers | Drazen Dujic |
| Title | Inductive Devices in Power Electronics - Materials, Measurement, Design and Applications |
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