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Wireless Power Transfer Technologies Theory and technologies 2nd Edition by Professor Naoki Shinohara ISBN 1839538929 9781839538926

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Wireless Power Transfer Technologies Theory and technologies 2nd Edition Professor Naoki Shinohara Digital Instant Download

Author(s): Professor Naoki Shinohara
ISBN(s): 9781839538926, 1839538929
Edition: 2nd
File Details: PDF, 66.81 MB
Year: 2024
Language: english
SKU: EB-56975246 Category: Tag:

Wireless Power Transfer Technologies Theory and technologies 2nd Edition by Professor Naoki Shinohara – Ebook PDF Instant Download/Delivery: 1839538929, 9781839538926
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ISBN 10: 1839538929 
ISBN 13: 9781839538926
Author: Professor Naoki Shinohara

Wireless Power Transfer (WPT) serves to transfer power from a grid or storage unit to a device without the need for cable connections. This can be performed by induction, as well as by using radio or microwaves.

The technology is already seeing widespread use; for example, for charging of cell phones and toothbrushes. R&D of WPT, especially inductive and resonance coupling WPT, has been active over recent years. The increased need to decarbonize the transport sector in particular is resulting in growing interest in electric vehicles and their comfortable charging.

This second edition of Wireless Power Transfer Technologies: Theory and technologies covers the very latest in theory and technology for WPT, for inductive and resonance coupling as well as radiative WPT with radio waves. It describes the theory as well as the technology and applications. Updates to the new edition include output characteristics of multi-hop systems, technologies, new experimental data, developments on regulation and standardization, WPT for dynamic EV charging, and far-field WPT.

After revising inductive and resonance coupling theory, chapters cover multi-hop wireless power transmission, circuit theory, power transfer via radio waves, antennas and phased arrays, transmitter, inverter and rectifier technology, WPT for electric vehicles, long-distance WPT, as well as biological and medical aspects.

This revised, expanded and updated new edition is a valuable resource for researchers in industry and academia involved with power systems and vehicles.

Wireless Power Transfer Technologies Theory and technologies 2nd Table of contents:

  • Fundamentals of Wireless Power Transfer

    • Basic Principles of Electromagnetic Fields

    • Electromagnetic Wave Propagation

    • Resonance and Coupling in Wireless Power Systems

    • Energy Conversion and Efficiency in WPT

  • Types of Wireless Power Transfer Systems

    • Inductive Coupling

    • Capacitive Coupling

    • Magnetic Resonant Coupling

    • Radio Frequency (RF) and Microwave Power Transfer

    • Laser and Optical Wireless Power Transfer

  • Inductive Wireless Power Transfer

    • Principles and Mechanisms of Inductive Coupling

    • Components of Inductive Power Transfer Systems (Coils, Magnetic Fields)

    • Design Considerations for Inductive Charging Systems

    • Applications in Consumer Electronics, Healthcare, and EVs

  • Resonant Inductive Coupling and Magnetic Resonance

    • Theory and Mechanism of Magnetic Resonance Coupling

    • Enhancing Efficiency with Resonant Coupling

    • Practical Implementation and Design Guidelines

    • Use Cases: Wireless Charging for Electric Vehicles and Large Systems

  • Radio Frequency (RF) and Microwave-Based Power Transfer

    • Introduction to RF and Microwave Power Transfer

    • Design and Efficiency Challenges in RF Power Transfer

    • Safety and Regulatory Considerations

    • Applications: Remote Sensing, IoT Devices, and Large-Scale Wireless Power Systems

  • Capacitive Wireless Power Transfer

    • Mechanism of Capacitive Coupling for Power Transfer

    • Design of Capacitive WPT Systems

    • Applications and Limitations of Capacitive Power Transfer

    • Emerging Research in Capacitive Power Transfer Technologies

  • Laser and Optical Power Transfer

    • Laser-Based Wireless Power Transfer Technologies

    • Principles of Optical Power Beaming

    • Efficiency, Safety, and Distance Constraints

    • Practical Applications: Space Power Transfer, Remote Charging

  • Wireless Power Transfer for Electric Vehicles (EVs)

    • Technologies and Methods for Wireless EV Charging

    • Inductive vs. Resonant Charging for EVs

    • Challenges in Efficiency and Range for Wireless EV Charging

    • Standardization and Industry Trends in Wireless EV Charging

  • Integration of Wireless Power Transfer in Consumer Electronics

    • Wireless Charging for Smartphones, Wearables, and Laptops

    • Efficiency and Convenience in Consumer Wireless Charging Systems

    • Future of Wireless Charging in the Smart Home and IoT Ecosystem

    • Case Studies: Successful Implementation in Electronics

  • Powering the Internet of Things (IoT) with Wireless Power

    • Wireless Power Transfer in IoT Devices

    • Challenges of Low-Power Wireless Charging

    • Harvesting Energy from Ambient Sources for IoT

    • Future Prospects for WPT in the IoT Ecosystem

  • Safety, Standards, and Regulations

    • Safety Considerations for Wireless Power Transfer Technologies

    • Electromagnetic Field (EMF) Exposure Limits and Regulations

    • Industry Standards for Wireless Power Transfer

    • Global Regulatory Frameworks and Certification

  • Efficiency, Optimization, and Energy Management

    • Factors Affecting Efficiency in Wireless Power Transfer Systems

    • Methods for Enhancing Power Transfer Efficiency

    • Energy Storage and Battery Management in Wireless Charging

    • Optimization Techniques for WPT Systems

  • Wireless Power Transfer in Healthcare and Medical Devices

    • Applications in Medical Implants and Wearable Health Devices

    • Challenges in Powering Medical Devices Wirelessly

    • Safety and Biocompatibility Concerns for Medical WPT Systems

    • Case Studies and Emerging Applications in Healthcare

  • Wireless Power in Space and Remote Locations

    • Space-Based Wireless Power Transfer Systems

    • Powering Satellites and Spacecraft Wirelessly

    • Wireless Power Transfer for Remote Stations and Unmanned Systems

    • The Potential for Solar Power Transmission from Space

  • Future Directions and Emerging Technologies in Wireless Power Transfer

    • Quantum and Advanced Materials in Wireless Power Transfer

    • Future Prospects of Ultra-Long-Range Wireless Power

    • Development of Hybrid Systems for Higher Efficiency

    • Role of Wireless Power in Smart Cities and Autonomous Systems

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Tags: Professor Naoki Shinohara, Wireless Power, Transfer Technologies