Coil-to-Coil Efficiency of ISS-Compensated Inductive Wireless Power Transfer Links Operating with Load-Independent Output Voltage at Fixed Frequency

A. Belenky; A. Chub; A. Kuperman

doi:10.1109/ICCEP57914.2023.10247404

Coil-to-Coil Efficiency of ISS-Compensated Inductive Wireless Power Transfer Links Operating with Load-Independent Output Voltage at Fixed Frequency

A. Belenky, A. Chub, A. Kuperman

School of Electrical and Computer Engineering

Ben-Gurion University of the Negev

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

Abstract

Series-series compensated inductive wireless power transfer link (SS-IWPTL) may attain specific load independent voltage gain for given coupling coefficient at two certain operating frequencies, residing away from resonance in either inductive or capacitive regions. Consequently, inverter volt-ampere (VA) rating is increased to withstand corresponding reactive power transfer. Inductive region is typically preferred by designers since zero-voltage switching (ZVS) of inverter transistors is inherently attained. It was recently suggested to design the SS-IWPTL for capacitive region operation and add a shunt inductor across AC-side terminals of either inverter or rectifier (attaining the so-called "ISS compensation") to supply reactive power to the resonant network thus minimizing inverter VA rating. This paper derives analytical expressions for coil-to-coil efficiency of ISS-IWPTL for both inverter-side and rectifier-side compensation inductance placement.

Original language	American English
Title of host publication	2023 International Conference on Clean Electrical Power, ICCEP 2023
Pages	617-621
Number of pages	5
ISBN (Electronic)	9798350348378
DOIs	https://doi.org/10.1109/ICCEP57914.2023.10247404
State	Published - 1 Jan 2023
Event	2023 International Conference on Clean Electrical Power, ICCEP 2023 - Terrasini, Italy Duration: 27 Jun 2023 → 29 Jun 2023

Publication series

Name	2023 International Conference on Clean Electrical Power, ICCEP 2023

Conference

Conference	2023 International Conference on Clean Electrical Power, ICCEP 2023
Country/Territory	Italy
City	Terrasini
Period	27/06/23 → 29/06/23

Keywords

ISS compensation
Inductive wireless power transfer link
coil-to-coil efficiency
load-independent voltage output

All Science Journal Classification (ASJC) codes

Energy Engineering and Power Technology
Electrical and Electronic Engineering
Computer Networks and Communications
Renewable Energy, Sustainability and the Environment

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1109/ICCEP57914.2023.10247404

Cite this

Belenky, A., Chub, A., & Kuperman, A. (2023). Coil-to-Coil Efficiency of ISS-Compensated Inductive Wireless Power Transfer Links Operating with Load-Independent Output Voltage at Fixed Frequency. In 2023 International Conference on Clean Electrical Power, ICCEP 2023 (pp. 617-621). (2023 International Conference on Clean Electrical Power, ICCEP 2023). https://doi.org/10.1109/ICCEP57914.2023.10247404

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title = "Coil-to-Coil Efficiency of ISS-Compensated Inductive Wireless Power Transfer Links Operating with Load-Independent Output Voltage at Fixed Frequency",

abstract = "Series-series compensated inductive wireless power transfer link (SS-IWPTL) may attain specific load independent voltage gain for given coupling coefficient at two certain operating frequencies, residing away from resonance in either inductive or capacitive regions. Consequently, inverter volt-ampere (VA) rating is increased to withstand corresponding reactive power transfer. Inductive region is typically preferred by designers since zero-voltage switching (ZVS) of inverter transistors is inherently attained. It was recently suggested to design the SS-IWPTL for capacitive region operation and add a shunt inductor across AC-side terminals of either inverter or rectifier (attaining the so-called {"}ISS compensation{"}) to supply reactive power to the resonant network thus minimizing inverter VA rating. This paper derives analytical expressions for coil-to-coil efficiency of ISS-IWPTL for both inverter-side and rectifier-side compensation inductance placement.",

keywords = "ISS compensation, Inductive wireless power transfer link, coil-to-coil efficiency, load-independent voltage output",

author = "A. Belenky and A. Chub and A. Kuperman",

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doi = "10.1109/ICCEP57914.2023.10247404",

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Belenky, A, Chub, A & Kuperman, A 2023, Coil-to-Coil Efficiency of ISS-Compensated Inductive Wireless Power Transfer Links Operating with Load-Independent Output Voltage at Fixed Frequency. in 2023 International Conference on Clean Electrical Power, ICCEP 2023. 2023 International Conference on Clean Electrical Power, ICCEP 2023, pp. 617-621, 2023 International Conference on Clean Electrical Power, ICCEP 2023, Terrasini, Italy, 27/06/23. https://doi.org/10.1109/ICCEP57914.2023.10247404

Coil-to-Coil Efficiency of ISS-Compensated Inductive Wireless Power Transfer Links Operating with Load-Independent Output Voltage at Fixed Frequency. / Belenky, A.; Chub, A.; Kuperman, A.
2023 International Conference on Clean Electrical Power, ICCEP 2023. 2023. p. 617-621 (2023 International Conference on Clean Electrical Power, ICCEP 2023).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution › peer-review

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PY - 2023/1/1

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N2 - Series-series compensated inductive wireless power transfer link (SS-IWPTL) may attain specific load independent voltage gain for given coupling coefficient at two certain operating frequencies, residing away from resonance in either inductive or capacitive regions. Consequently, inverter volt-ampere (VA) rating is increased to withstand corresponding reactive power transfer. Inductive region is typically preferred by designers since zero-voltage switching (ZVS) of inverter transistors is inherently attained. It was recently suggested to design the SS-IWPTL for capacitive region operation and add a shunt inductor across AC-side terminals of either inverter or rectifier (attaining the so-called "ISS compensation") to supply reactive power to the resonant network thus minimizing inverter VA rating. This paper derives analytical expressions for coil-to-coil efficiency of ISS-IWPTL for both inverter-side and rectifier-side compensation inductance placement.

AB - Series-series compensated inductive wireless power transfer link (SS-IWPTL) may attain specific load independent voltage gain for given coupling coefficient at two certain operating frequencies, residing away from resonance in either inductive or capacitive regions. Consequently, inverter volt-ampere (VA) rating is increased to withstand corresponding reactive power transfer. Inductive region is typically preferred by designers since zero-voltage switching (ZVS) of inverter transistors is inherently attained. It was recently suggested to design the SS-IWPTL for capacitive region operation and add a shunt inductor across AC-side terminals of either inverter or rectifier (attaining the so-called "ISS compensation") to supply reactive power to the resonant network thus minimizing inverter VA rating. This paper derives analytical expressions for coil-to-coil efficiency of ISS-IWPTL for both inverter-side and rectifier-side compensation inductance placement.

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Belenky A, Chub A, Kuperman A. Coil-to-Coil Efficiency of ISS-Compensated Inductive Wireless Power Transfer Links Operating with Load-Independent Output Voltage at Fixed Frequency. In 2023 International Conference on Clean Electrical Power, ICCEP 2023. 2023. p. 617-621. (2023 International Conference on Clean Electrical Power, ICCEP 2023). doi: 10.1109/ICCEP57914.2023.10247404

Coil-to-Coil Efficiency of ISS-Compensated Inductive Wireless Power Transfer Links Operating with Load-Independent Output Voltage at Fixed Frequency

Abstract

Publication series

Conference

Keywords

All Science Journal Classification (ASJC) codes

UN SDGs

Access to Document

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