The semi-dynamic resonant inductive wireless power transfer (SD-RIWPT) technology reduces the need for large electric vehicle (EV) battery capacity, size, weight, and charging duration, thereby increasing the travel distance range or mileage. However, it faces challenges in power transfer efficiency (PTE) and optimal power delivery due to power fluctuations and power null phenomenon (PNP) effect. To address these challenges, this article proposes a novel approach integrating a dual receiver (Rx) coupling architecture with an inherent constant current–constant voltage (CC-CV) charging mechanism for the SD-RIWPT EV charging system. The combination of dual Rx with multiple transmitter (Tx) coupling SD charging Lane eliminates the PNP effect, limits the power fluctuations, and establishes the effective resonant magnetic field coupling architecture. Also, the inherent CC-CV charging hybrid compensation ensures optimal power delivery, enhancing battery charging efficiency and limiting power fluctuations. The multi-Tx coil power is consistently allocated across the couples, by introducing a proportional–integral–derivative (PID) feedback controller to achieve optimal power delivery. The unipolar square geometrical pads are embedded with optimal distance spacing in adjacent sequences to eliminate the PNP effect and optimize the cross-coupling inductance between pads to enhance PTE. The resonance magnetic field coupling (RMFC) architecture ensures coupling effectiveness along with the SD charging Lane and achieves maximum PTE. Also, the proposed system eliminates the need for a dc–dc chopper and a complicated control strategy for battery charging. This topology achieves CC-CV output automatically even with high misalignment tolerance in coupling, which enhances system reliability.


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    Title :

    An Inherent CC-CV Charging Architecture for Dual Receiver Semi-Dynamic Resonant Inductive Wireless Electric Vehicle Charging System


    Contributors:


    Publication date :

    2025-04-01


    Size :

    3307513 byte




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    English





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