Design and Development of High Efficiency 150 kW Very Compact PLA Core Electromagnetic Coupler for Highly Resonant Power Transfer Technology

F. Z. Boudara, M. Rivaletto, L. Pécastaing, A. Ferron, S. Paquet, J. Brasile
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引用次数: 1

Abstract

Highly Resonant Power Transfer (HRPT) technology is currently receiving very significant attention from the industry and the smart power grid distribution community in particular. This technology ensures electrical power transmission between two points while controlling the level of transmitted power and ensures the immediate shutdown of the transmitted power in the event of a problem. This paper reviews the inductive power transfer method and describes the design of an ultra-compact PLA core electromagnetic coupler. The proposed architecture confines the magnetic field in a toroidal PLA core transformer, and by avoiding the use of heavy and bulky shielding plates, reduces magnetic losses and avoids the Curie point. As a result, the overall unit has a weight of 5 kg and a volume of only 0.013 m3. The electromagnetic coupler is capable of transferring a peak power of 150 kW with an operating frequency of 193 kHz, giving a satisfactory efficiency of 95%. The proposed novel system was first investigated through CST 3D numerical modelling to determine the electrical parameters of the coupler’s equivalent circuit and its efficiency, to verify its compatibility with the ICNIRP 2010 standard and to evaluate its temperature rise with an air-cooling system. Afterwards, the designed coupler was built with a 3D printing device and finally tested experimentally. Simulation and experimental results are compared and show a good agreement.
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用于高谐振功率传输技术的高效150kW超紧凑型PLA芯电磁耦合器的设计与开发
高谐振功率传输(HRPT)技术目前正受到行业特别是智能电网配电界的极大关注。这项技术确保了两点之间的电力传输,同时控制传输功率的水平,并确保在出现问题时立即关闭传输功率。本文综述了电感功率传输方法,并描述了一种超紧凑型PLA芯电磁耦合器的设计。所提出的结构限制了环形PLA磁芯变压器中的磁场,并通过避免使用笨重的屏蔽板,减少了磁损耗并避免了居里点。因此,整个单元的重量为5kg,体积仅为0.013m3。电磁耦合器能够在193kHz的工作频率下传输150kW的峰值功率,给出95%的令人满意的效率。首次通过CST 3D数值建模对所提出的新型系统进行了研究,以确定耦合器等效电路的电气参数及其效率,验证其与ICNIRP 2010标准的兼容性,并评估其与空气冷却系统的温升。然后,用3D打印设备构建了所设计的耦合器,并进行了实验测试。仿真结果与实验结果进行了比较,显示出良好的一致性。
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