Modelling of Wireless Power Transfer

Wireless power transfer allows the transfer of energy from a transmitter to a receiver across an air gap, without any electrical connections. Technically, any device that needs power can become an application for wireless power transmission. The current list of applications is therefore very diverse...

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Baskı/Yayın Bilgisi: MDPI - Multidisciplinary Digital Publishing Institute 2021
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Online Erişim:ONIX_20210501_9783036505084_193
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collection Directory of Open Access Books
description Wireless power transfer allows the transfer of energy from a transmitter to a receiver across an air gap, without any electrical connections. Technically, any device that needs power can become an application for wireless power transmission. The current list of applications is therefore very diverse, from low-power portable electronics and household devices to high-power industrial automation and electric vehicles. With the rise of IoT sensor networks and Industry 4.0, the presence of wireless energy transfer will only increase. In order to improve the current state of the art, models are being developed and tested experimentally. Such models allow simulating, quantifying, predicting, or visualizing certain aspects of the power transfer from transmitter(s) to receiver(s). Moreover, they often result in a better understanding of the fundamentals of the wireless link. This book presents a wonderful collection of peer-reviewed papers that focus on the modelling of wireless power transmission. It covers both inductive and capacitive wireless coupling and includes work on multiple transmitters and/or receivers.
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publisherStr MDPI - Multidisciplinary Digital Publishing Institute
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spelling doab-20.500.12854ir-684472024-04-11T15:10:25Z Modelling of Wireless Power Transfer Minnaert, Ben Mongiardo, Mauro resonance-based wireless power transfer (R-WPT) resonance frequency power transfer efficiency (PTE) 3-coil system steady-state matrix analysis Class-E power amplifier wireless power transfer (WPT) system output characteristics strength coupling coefficient impedance matrix multiple coils mutual inductance scattering matrix transfer impedance wireless power transfer design optimization finite element analysis gallium nitride gradient methods inductive power transmission power measurement transformer cores wireless charging circuit modeling numerical analysis capacitive wireless power transfer resonance power-transfer efficiency multiports multiple-input single-output wireless power transmission electric field shielded-capacitive power transfer design guidelines resonant inductive coupling optimal load single-input multiple-output power gain thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology Wireless power transfer allows the transfer of energy from a transmitter to a receiver across an air gap, without any electrical connections. Technically, any device that needs power can become an application for wireless power transmission. The current list of applications is therefore very diverse, from low-power portable electronics and household devices to high-power industrial automation and electric vehicles. With the rise of IoT sensor networks and Industry 4.0, the presence of wireless energy transfer will only increase. In order to improve the current state of the art, models are being developed and tested experimentally. Such models allow simulating, quantifying, predicting, or visualizing certain aspects of the power transfer from transmitter(s) to receiver(s). Moreover, they often result in a better understanding of the fundamentals of the wireless link. This book presents a wonderful collection of peer-reviewed papers that focus on the modelling of wireless power transmission. It covers both inductive and capacitive wireless coupling and includes work on multiple transmitters and/or receivers. 2021-05-01T15:09:52Z 2021-05-01T15:09:52Z 2021 book ONIX_20210501_9783036505084_193 9783036505084 9783036505091 https://directory.doabooks.org/handle/20.500.12854/68447 eng application/octet-stream Attribution 4.0 International https://mdpi.com/books/pdfview/book/3464 https://mdpi.com/books/pdfview/book/3464 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-0509-1 10.3390/books978-3-0365-0509-1 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036505084 9783036505091 148 Basel, Switzerland open access
spellingShingle resonance-based wireless power transfer (R-WPT)
resonance frequency
power transfer efficiency (PTE)
3-coil system
steady-state matrix analysis
Class-E power amplifier
wireless power transfer (WPT) system
output characteristics
strength
coupling coefficient
impedance matrix
multiple coils
mutual inductance
scattering matrix
transfer impedance
wireless power transfer
design optimization
finite element analysis
gallium nitride
gradient methods
inductive power transmission
power measurement
transformer cores
wireless charging
circuit modeling
numerical analysis
capacitive wireless power transfer
resonance
power-transfer efficiency
multiports
multiple-input single-output
wireless power transmission
electric field
shielded-capacitive power transfer
design guidelines
resonant
inductive coupling
optimal load
single-input multiple-output
power gain
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Modelling of Wireless Power Transfer
title Modelling of Wireless Power Transfer
title_full Modelling of Wireless Power Transfer
title_fullStr Modelling of Wireless Power Transfer
title_full_unstemmed Modelling of Wireless Power Transfer
title_short Modelling of Wireless Power Transfer
title_sort modelling of wireless power transfer
topic resonance-based wireless power transfer (R-WPT)
resonance frequency
power transfer efficiency (PTE)
3-coil system
steady-state matrix analysis
Class-E power amplifier
wireless power transfer (WPT) system
output characteristics
strength
coupling coefficient
impedance matrix
multiple coils
mutual inductance
scattering matrix
transfer impedance
wireless power transfer
design optimization
finite element analysis
gallium nitride
gradient methods
inductive power transmission
power measurement
transformer cores
wireless charging
circuit modeling
numerical analysis
capacitive wireless power transfer
resonance
power-transfer efficiency
multiports
multiple-input single-output
wireless power transmission
electric field
shielded-capacitive power transfer
design guidelines
resonant
inductive coupling
optimal load
single-input multiple-output
power gain
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet resonance-based wireless power transfer (R-WPT)
resonance frequency
power transfer efficiency (PTE)
3-coil system
steady-state matrix analysis
Class-E power amplifier
wireless power transfer (WPT) system
output characteristics
strength
coupling coefficient
impedance matrix
multiple coils
mutual inductance
scattering matrix
transfer impedance
wireless power transfer
design optimization
finite element analysis
gallium nitride
gradient methods
inductive power transmission
power measurement
transformer cores
wireless charging
circuit modeling
numerical analysis
capacitive wireless power transfer
resonance
power-transfer efficiency
multiports
multiple-input single-output
wireless power transmission
electric field
shielded-capacitive power transfer
design guidelines
resonant
inductive coupling
optimal load
single-input multiple-output
power gain
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url ONIX_20210501_9783036505084_193