Reprint
Wireless Power/Data Transfer, Energy Harvesting System Design
Edited by
July 2021
344 pages
- ISBN978-3-0365-0782-8 (Hardback)
- ISBN978-3-0365-0783-5 (PDF)
This book is a reprint of the Special Issue Wireless Power/Data Transfer, Energy Harvesting System Design that was published in
Computer Science & Mathematics
Engineering
Physical Sciences
Summary
This book focuses on emerging wireless power/data and energy harvesting technologies, and highlights their fundamental requirements, followed by recent advancements. It provides a various technical overview and analysis of key techniques for wireless power/data and energy harvesting system design. The state-of-the-art system introduced in this book will benefit designers looking to develop wireless power transfer and energy harvesting technologies in a variety of fields, such as wearable, implantable devices, home appliances, and electric vehicles.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
wireless power transfer; capacitive power transfer; parallel-plate contactless power; MIMO; NOMA; precoding; power allocation; user-clustering; power splitter; mobile sensor; hopping sensor; relocation protocol; energy efficient protocol; internet of things (IoTs); wireless sensor networks (WSNs); simulation; inductive power; dual impedance; dual band; reflected resistance; frequency splitting; multiple coils; mutual inductance; parasitic effect; practical mutual inductance; transfer impedance; wireless power transfer; wearable heater; inductive-power transmission; textile coil; impedance matching network; parasitic resistance; power loss; reflection coefficient; Smith chart; wireless power transfer; cylindrical joint; electromagnetic fields; rotation-free structure; wireless power transfer; soil sensing; decision agriculture; smart farming; Wireless Power Transfer (WPT); compensation topology; optimal load; output power level; electric vehicle (EV); capacitive power transfer (CPT) systems; wireless power transfer (WPT) systems; e-class inverter; wireless resonance energy link system; cognitive radio; energy harvesting; full-duplex relay; simultaneous wireless information and power transfer (SWIPT); zero-forcing precoding; shielded loop coil; wireless power transfer; SAR; coupled resonance; wireless power transfer; coil resistance; substrate size; implantable biomedical microsystems; data telemetry; low power; high data rate; binary phase-shift keying demodulation; electric vehicle; wireless power transfer; center alignment point; ferrite antenna; laser wireless power transmission; PV module; maximum power point; battery charging; wirelessly-powered cage; inductive power transmission; implantable medical device; animal experiment; reference circuit; inductive link; implantable device; line regulation; wireless power telemetry; supply independence; balanced coil; foreign object detection; Maxwell bridge; metal object detection; wireless power transfer; wireless power transmission (WPT); power conversion efficiency (PCE); mm-sized implant; duty cycle; pulsed power transmission; power transfer efficiency (PTE); rectifier