Simple Enhancement of Series-Series-Compensated Inductive Wireless Power Transfer Links Operating With Load-Independent Voltage Output at Fixed Frequency to Attain Zero Inverter Phase Angle

Alon Kuperman

doi:10.1109/TPEL.2023.3241107

Simple Enhancement of Series-Series-Compensated Inductive Wireless Power Transfer Links Operating With Load-Independent Voltage Output at Fixed Frequency to Attain Zero Inverter Phase Angle

Alon Kuperman

Department of Electrical & Computer Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

It is well-known that series-series-compensated resonant inductive wireless power transfer links (SS-IWPTL) may be designed to attain load-independent voltage output (for given operating frequency and coupling coefficient. Unfortunately, the corresponding inverter output impedance is either highly inductive or highly capacitive (inductive region is typically preferred due to natural zero-voltage switching of inverter transistors), significantly increasing inverter volt-ampere (VA) rating. The letter demonstrates that designing the SS-IWPTL for operation in the capacitive region and then adding a shunt inductor across ac-side terminals of either inverter or rectifier allow attaining inverter zero-phase angle, thus minimizing its VA rating.

Original language	English
Pages (from-to)	5670-5674
Number of pages	5
Journal	IEEE Transactions on Power Electronics
Volume	38
Issue number	5
DOIs	https://doi.org/10.1109/TPEL.2023.3241107
State	Published - 1 May 2023

Keywords

Inductive wireless power transfer link (IWPTL)
load-independent voltage output (LIVO)
series-series compensation
zero-phase angle (ZPA)

ASJC Scopus subject areas

Electrical and Electronic Engineering

Access to Document

10.1109/TPEL.2023.3241107

Cite this

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title = "Simple Enhancement of Series-Series-Compensated Inductive Wireless Power Transfer Links Operating With Load-Independent Voltage Output at Fixed Frequency to Attain Zero Inverter Phase Angle",

abstract = "It is well-known that series-series-compensated resonant inductive wireless power transfer links (SS-IWPTL) may be designed to attain load-independent voltage output (for given operating frequency and coupling coefficient. Unfortunately, the corresponding inverter output impedance is either highly inductive or highly capacitive (inductive region is typically preferred due to natural zero-voltage switching of inverter transistors), significantly increasing inverter volt-ampere (VA) rating. The letter demonstrates that designing the SS-IWPTL for operation in the capacitive region and then adding a shunt inductor across ac-side terminals of either inverter or rectifier allow attaining inverter zero-phase angle, thus minimizing its VA rating.",

keywords = "Inductive wireless power transfer link (IWPTL), load-independent voltage output (LIVO), series-series compensation, zero-phase angle (ZPA)",

author = "Alon Kuperman",

note = "Funding Information: This work was supported by The Israeli Smart Transportation Research Center (ISTRC). Publisher Copyright: {\textcopyright} 2022 IEEE.",

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AB - It is well-known that series-series-compensated resonant inductive wireless power transfer links (SS-IWPTL) may be designed to attain load-independent voltage output (for given operating frequency and coupling coefficient. Unfortunately, the corresponding inverter output impedance is either highly inductive or highly capacitive (inductive region is typically preferred due to natural zero-voltage switching of inverter transistors), significantly increasing inverter volt-ampere (VA) rating. The letter demonstrates that designing the SS-IWPTL for operation in the capacitive region and then adding a shunt inductor across ac-side terminals of either inverter or rectifier allow attaining inverter zero-phase angle, thus minimizing its VA rating.

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Simple Enhancement of Series-Series-Compensated Inductive Wireless Power Transfer Links Operating With Load-Independent Voltage Output at Fixed Frequency to Attain Zero Inverter Phase Angle

Abstract

Keywords

ASJC Scopus subject areas

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