Tuncel, ErhanYıldırız, Emin2025-10-112025-10-1120249798350390865https://doi.org/10.1109/ISETC63109.2024.10797223https://hdl.handle.net/20.500.12684/21329Continental; et al.; Forvia; Hamilton; Magna; Schaeffler16th International Symposium on Electronics and Telecommunications -- ISETC 2024 -- Timisoara -- AX6205402This study examines the impact of multilayer windings on inductive power transfer in a rotating system. The 20-turn windings on the primary and secondary sides are modeled as single, double, and four-layer configurations, with identical air gaps, identical conductor spacings, and identical conductor counts. The configurations were evaluated based on power transfer efficiency under a 96V source voltage and a 100 kHz resonant frequency, using self-inductance and mutual inductance values derived from the models. © 2025 Elsevier B.V., All rights reserved.en10.1109/ISETC63109.2024.10797223info:eu-repo/semantics/closedAccessInductive Power Transfer (ipt)Rotary ApplicationsWireless Power Transfer (wpt)Energy TransferInductanceAxial MotionsInductive Power TransferInductive Powertransfer (ipt)Multilayer WindingPower TransfersRotary ApplicationRotating SystemsSecondary-sideWireless PowerWireless Power TransferInductive Power TransmissionConference Object2-s2.0-85216004711N/A