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High-Misalignment-Tolerant Dual-Channel Inductive Power Transfer System Based on Cross-Shaped Reversed-Winding-Incorporated Solenoid Pad | IEEE Journals & Magazine | IEEE Xplore

High-Misalignment-Tolerant Dual-Channel Inductive Power Transfer System Based on Cross-Shaped Reversed-Winding-Incorporated Solenoid Pad


Abstract:

The inductive power transfer (IPT) system needs to have a stable output even when the coil offset occurs. In this article, a combination of a square coil and a novel cros...Show More

Abstract:

The inductive power transfer (IPT) system needs to have a stable output even when the coil offset occurs. In this article, a combination of a square coil and a novel cross-shaped solenoid pad with reverse windings is proposed. The former is used to pick up the vertical magnetic flux, and the latter is to receive the horizontal magnetic flux generated in the offset case to compensate for the decrease in the vertical magnetic flux. A dual-channel inductor-capacitor-capacitor-series topology with series connected diode rectifiers is utilized to form two energy transfer channels with opposite misalignment characteristics to achieve a stable output. The proposed magnetic couplers can achieve a smooth mutual inductance fluctuation in both the horizontal X- and Y-directions. The fluctuation of the equivalent total mutual inductance is 4.35% from −210 to 210 mm (52.5% of the pad size) in both directions. An experimental prototype is built to verify the stability of the proposed IPT system. The experimental results show that within the 52.5% offset range of the pad size, the output voltage fluctuates by only 4.52%. A stable output can be obtained when the pad is offset from 90 to 140 mm in the vertical direction and the XOY plane.
Published in: IEEE Transactions on Industrial Electronics ( Volume: 71, Issue: 10, October 2024)
Page(s): 12499 - 12509
Date of Publication: 14 February 2024

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