A hybrid bi-directional IPT system with improved spatial tolerance

Lei Zhao, D. Thrimawithana, U. Madawala
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引用次数: 16

Abstract

Bi-directional inductive power transfer (BD-IPT) systems are suitable for applications such as V2G where a bi-directional wireless interface between the electric vehicle (EV) and the utility grid has a number of advantages over a wired link. However, physical misalignment between the magnetic couplers of BD-IPT systems used in EVs are unavoidable and introduces variations in self-inductance, leakage inductance and mutual inductance. These variations invariably detune the compensation circuits, thus significantly increasing losses and affecting the power throughput. This paper proposes a hybrid BD-IPT system, which combines a parallel tuned inductor-capacitor-inductor (LCL) network and a series tuned capacitor-inductor (CL) compensation network to provide a constant power transfer over a wide range of spatial displacements. A mathematical is developed to investigate the behavior and the sensitivity to variation in parameters of the proposed hybrid BD-IPT system. The validity of the mathematical model has been verified using simulated results of a 3.3 kW hybrid BD-IPT system. Both theoretical and simulated results are presented to show that a constant power throughput and an improved efficiency can be achieved over a wide range of horizontal and vertical displacements.
混合双向IPT系统,提高了空间容忍度
双向感应功率传输(BD-IPT)系统适用于V2G等应用,其中电动汽车(EV)和公用电网之间的双向无线接口比有线链路具有许多优点。然而,用于电动汽车的BD-IPT系统的磁耦合器之间的物理不对准是不可避免的,并且会导致自感、漏感和互感的变化。这些变化总是会使补偿电路失谐,从而显著增加损耗并影响功率吞吐量。本文提出了一种混合BD-IPT系统,该系统结合了并联调谐电感-电容-电感(LCL)网络和串联调谐电容-电感(CL)补偿网络,在大范围的空间位移范围内提供恒定的功率传输。建立了一个数学模型来研究所提出的BD-IPT混合系统的行为和对参数变化的敏感性。利用3.3 kW混合式BD-IPT系统的仿真结果验证了数学模型的有效性。理论和仿真结果表明,在较宽的水平和垂直位移范围内,可以实现恒定的功率吞吐量和提高的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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