Wireless Power Transfer
eBook - PDF

Wireless Power Transfer

Principles and Engineering Explorations

  1. 282 pages
  2. English
  3. PDF
  4. Available on iOS & Android
eBook - PDF

Wireless Power Transfer

Principles and Engineering Explorations

About this book

The title of this book, Wireless Power Transfer: Principles and Engineering Explorations, encompasses theory and engineering technology, which are of interest for diverse classes of wireless power transfer. This book is a collection of contemporary research and developments in the area of wireless power transfer technology. It consists of 13 chapters that focus on interesting topics of wireless power links, and several system issues in which analytical methodologies, numerical simulation techniques, measurement techniques and methods, and applicable examples are investigated.

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Yes, you can access Wireless Power Transfer by Ki Young Kim in PDF and/or ePUB format, as well as other popular books in Technology & Engineering & Electrical Engineering & Telecommunications. We have over one million books available in our catalogue for you to explore.

Table of contents

  1. Wireless Power Transfer - Principles and Engineering Explorations
  2. Contents
  3. Preface
  4. 01 The Phenomenon of Wireless Energy Transfer: Experiments and Philosophy
  5. 02 Analysis of Wireless Power Transfer by Coupled Mode Theory (CMT) and Practical Considerations to Increase Power Transfer Efficiency
  6. 03 Magnetically Coupled Resonance Wireless Power Transfer (MR-WPT) with Multiple Self-Resonators
  7. 04 Network Methods for Analysis and Design of Resonant Wireless Power Transfer Systems
  8. 05 Performance Analysis of Magnetic Resonant System Based on Electrical Circuit Theory
  9. 06 Equivalent Circuit and Calculation of Its Parameters of Magnetic-Coupled-Resonant Wireless Power Transfer
  10. 07 Compact and Tunable Transmitter and Receiver for Magnetic Resonance Power Transmission to Mobile Objects
  11. 08 Realizing Efficient Wireless Power Transfer in the Near-Field Region Using Electrically Small Antennas
  12. 09 A Fully Analytic Treatment of Resonant Inductive Coupling in the Far Field
  13. 10 Enhanced Coupling Structures for Wireless Power Transfer Using the Circuit Approach and the Effective Medium Constants (Metamaterials)
  14. 11 Maximizing Efficiency of Electromagnetic Resonance Wireless Power Transmission Systems with Adaptive Circuits
  15. 12 AC Processing Controllers for IPT Systems
  16. 13 A High Frequency AC-AC Converter for Inductive Power Transfer (IPT) Applications