用于电动汽车充电的集总IPT系统中的双极接收器

A. Zaheer, D. Kacprzak, G. Covic
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引用次数: 139

摘要

感应功率传输(IPT)通过提供足够的功率水平并允许横向位移,证明了其作为电动汽车(EV)充电系统安全、方便和高效的解决方案的能力。在IPT系统设计中,接收/二次和发送/一次磁垫的磁设计是最关键的部分。本文介绍了用于电动汽车充电系统的集总IPT系统中的双极Pad (BPP)接收器的性能,并将其与最近提出的接收器设计双d正交Pad (DDQP)的性能进行了比较。利用三维有限元建模工具对本文提出的所有模型进行了模拟,该工具在过去的测量结果和模拟结果之间表现出很好的一致性。建立了仿真模型,并对仿真结果进行了验证。虽然已经证明极化单面磁通垫设计,双d磁通垫(DDP)比非极化单面磁通垫设计,圆形磁通垫(CP)具有更好的性能,但接收器拾取与两种类型的发射器互操作的能力仍然被认为是非常可取的。本文将BPP接收机的性能与DDQP接收机在与DDP发射机或CP发射机一起使用时的性能进行了比较。结果表明,在使用较少铜的情况下,BPP接收机的输出电平与DDQP接收机的输出电平大致匹配。最后,研究了通过改变接收机铁氧体结构来提高BPP和DDQP接收机与DDP和CP发射器互操作能力的可能性。然而,结果表明,对于BPP和DDQP接收器设计,传统铁氧体结构在本文考虑的设计可能性中表现出最佳的材料使用效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A bipolar receiver pad in a lumped IPT system for electric vehicle charging applications
Inductive Power Transfer (IPT) has proved its capability as a safe, convenient and efficient solution for electric vehicle (EV) charging systems by providing sufficient power levels with tolerance to lateral displacement. The magnetic design of the receiver/secondary and transmitter/primary pads is the most critical part of an IPT system design. This paper presents the performance of a Bipolar Pad (BPP) receiver in a lumped IPT system for EV charging systems and compares it against the performance of a recently proposed receiver design, Double-D Quadrature Pad (DDQP). A 3D finite element modeling tool, which has shown good agreement between measured and simulated results in the past, is used to simulate all the models presented in this paper. The prototype models are also built and tested to verify the simulated results. Although it has been shown that the polarized single sided flux pad design, Double-D Pad (DDP), has much better performance than the non-polarized single sided flux pad design, Circular Pad (CP), still the ability of a receiver pickup to interoperate with both types of transmitters is considered to be highly desirable. In this paper the performance of a BPP receiver is compared against the performance of a DDQP receiver when used with either a DDP transmitter or a CP transmitter. The results show that the BPP receiver approximately matches the output levels provided by a DDQP receiver while using less amount of copper. Finally, the possibility of improving the ability of both the BPP and DDQP receivers to interoperate with both DDP and CP transmitters by changing the receiver ferrite structure is investigated. The results however indicate that for both the BPP and the DDQP receiver designs, the traditional ferrite structure exhibits best material usage efficiency amongst the design possibilities considered in this paper.
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