High-Frequency Magnetic Components (PDF)
(Sprache: Englisch)
A unique text on the theory and design fundaments of
inductors and transformers, updated with more coverage on the
optimization of magnetic devices and many new design
examples
The first edition is popular among a very broad audience of
readers in...
inductors and transformers, updated with more coverage on the
optimization of magnetic devices and many new design
examples
The first edition is popular among a very broad audience of
readers in...
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Produktinformationen zu „High-Frequency Magnetic Components (PDF)“
A unique text on the theory and design fundaments of
inductors and transformers, updated with more coverage on the
optimization of magnetic devices and many new design
examples
The first edition is popular among a very broad audience of
readers in different areas of engineering and science. This book
covers the theory and design techniques of the major types of
high-frequency power inductors and transformers for a variety of
applications, including switching-mode power supplies (SMPS) and
resonant dc-to-ac power inverters and dc-to-dc power converters. It
describes eddy-current phenomena (such as skin and proximity
effects), high-frequency magnetic materials, core saturation, core
losses, complex permeability, high-frequency winding resistance,
winding power losses, optimization of winding conductors,
integrated inductors and transformers, PCB inductors,
self-capacitances, self-resonant frequency, core utilization factor
area product method, and design techniques and procedures of power
inductors and transformers. These components are commonly used in
modern power conversion applications. The material in this book has
been class-tested over many years in the author's own courses
at Wright State University, which have a high enrolment of about a
hundred graduate students per term. The book presents the growing
area of magnetic component research in a textbook form, covering
the foundations for analysing and designing magnetic devices
specifically at high-frequencies. Integrated inductors are
described, and the Self-capacitance of inductors and transformers
is examined. This new edition adds information on the optimization
of magnetic components (Chapter 5). Chapter 2 has been expanded to
provide better coverage of core losses and complex permeability,
and Chapter 9 has more in-depth coverage of self-capacitances and
self-resonant frequency of inductors. There is a more rigorous
treatment of many concepts in all chapters. Updated end-of-chapter
problems aid the readers' learning process, with an online
solutions manual available for use in the classroom.
* Provides physics-based descriptions and models of discrete
inductors and transformers as well as integrated magnetic
devices
* New coverage on the optimization of magnetic devices, updated
information on core losses and complex permeability, and more
in-depth coverage of self-capacitances and self-resonant frequency
of inductors
* Many new design examples and end-of-chapter problems for the
reader to test their learning
* Presents the most up-to-date and important references in the
field
* Updated solutions manual, now available through a companion
website
An up to date resource for Post-graduates and professors working
in electrical and computer engineering. Research students in power
electronics. Practising design engineers of power electronics
circuits and RF (radio-frequency) power amplifiers, senior
undergraduates in electrical and computer engineering, and R &
D staff.
inductors and transformers, updated with more coverage on the
optimization of magnetic devices and many new design
examples
The first edition is popular among a very broad audience of
readers in different areas of engineering and science. This book
covers the theory and design techniques of the major types of
high-frequency power inductors and transformers for a variety of
applications, including switching-mode power supplies (SMPS) and
resonant dc-to-ac power inverters and dc-to-dc power converters. It
describes eddy-current phenomena (such as skin and proximity
effects), high-frequency magnetic materials, core saturation, core
losses, complex permeability, high-frequency winding resistance,
winding power losses, optimization of winding conductors,
integrated inductors and transformers, PCB inductors,
self-capacitances, self-resonant frequency, core utilization factor
area product method, and design techniques and procedures of power
inductors and transformers. These components are commonly used in
modern power conversion applications. The material in this book has
been class-tested over many years in the author's own courses
at Wright State University, which have a high enrolment of about a
hundred graduate students per term. The book presents the growing
area of magnetic component research in a textbook form, covering
the foundations for analysing and designing magnetic devices
specifically at high-frequencies. Integrated inductors are
described, and the Self-capacitance of inductors and transformers
is examined. This new edition adds information on the optimization
of magnetic components (Chapter 5). Chapter 2 has been expanded to
provide better coverage of core losses and complex permeability,
and Chapter 9 has more in-depth coverage of self-capacitances and
self-resonant frequency of inductors. There is a more rigorous
treatment of many concepts in all chapters. Updated end-of-chapter
problems aid the readers' learning process, with an online
solutions manual available for use in the classroom.
* Provides physics-based descriptions and models of discrete
inductors and transformers as well as integrated magnetic
devices
* New coverage on the optimization of magnetic devices, updated
information on core losses and complex permeability, and more
in-depth coverage of self-capacitances and self-resonant frequency
of inductors
* Many new design examples and end-of-chapter problems for the
reader to test their learning
* Presents the most up-to-date and important references in the
field
* Updated solutions manual, now available through a companion
website
An up to date resource for Post-graduates and professors working
in electrical and computer engineering. Research students in power
electronics. Practising design engineers of power electronics
circuits and RF (radio-frequency) power amplifiers, senior
undergraduates in electrical and computer engineering, and R &
D staff.
Autoren-Porträt von Marian K. Kazimierczuk
Professor Marian K. Kazimierczuk, Wright State University, Dayton, Ohio, USAProfessor Kazimierczuk has been conducting research in the area of power electronics amplifiers for more than thirty years, twice chairing the Technical Committee of Power Electronics and Power Systems for the IEEE Circuits and Systems Society. Over twenty-two years he has taught three graduate courses in high-frequency power electronics, and has won the Excellence in Teaching Award several times. His Science Citation index is one of the highest in the field, at over 1000 citations; he owns seven patents, has published over 110 papers in the IEEE Transactions, and has published more than 150 papers in the IEEE international conferences on power conversion. An IEEE Fellow, he has served as Associate Editor for the IEEE Transactions on Circuits and Systems and is currently an Associate Editor of the IEEE Transactions on Industrial Electronics.
Bibliographische Angaben
- Autor: Marian K. Kazimierczuk
- 2013, 2. Auflage, 760 Seiten, Englisch
- Verlag: John Wiley & Sons
- ISBN-10: 1118717732
- ISBN-13: 9781118717738
- Erscheinungsdatum: 25.10.2013
Abhängig von Bildschirmgröße und eingestellter Schriftgröße kann die Seitenzahl auf Ihrem Lesegerät variieren.
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Sprache:
Englisch
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