Design of an experimental setup for evaluation of inductive transcutaneous energy transfer systems

A. Danilov, Igor S. Uzlov, E. Mindubaev
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引用次数: 1

Abstract

Work objective — is to develop an experimental setup for evaluation characteristics of inductive transcutaneous energy transfer systems, such as comparative studies of various topological solutions; studies of systems' thermal safety; influence of geometry of a coils couple on the parameters of energy transfer. The system consists of planar spiral coils, device for positioning, receiving and transmitting circuit boards, frequency generator, and National Instruments USB-6361 DAQ. Mathematical apparatus has been developed that makes it possible to obtain self-inductance and the internal equivalent resistance of the coils from the measured voltage drop in the transmitting circuit, as well as the dependence of the mutual inductance on displacements. LabVIEW virtual instrument for automation of measurements is designed. The values of the self-inductances of planar spiral coils and the practical dependences of the mutual inductance of spiral coils on displacements without and with using automation tools were experimentally found. The results corresponds theoretical calculations.
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设计一种评估感应经皮能量传递系统的实验装置
工作目标-开发一个实验装置,用于评估感应经皮能量传递系统的特性,例如各种拓扑解决方案的比较研究;系统热安全性研究;线圈耦合几何形状对能量传递参数的影响。该系统由平面螺旋线圈、定位装置、接收和发射电路板、频率发生器和美国国家仪器公司USB-6361 DAQ组成。数学装置已经开发出来,可以从发射电路中测量的电压降中获得线圈的自感和内部等效电阻,以及互感对位移的依赖关系。设计了用于自动化测量的LabVIEW虚拟仪器。通过实验得到了平面螺旋线圈的自感值,以及螺旋线圈的互感值与不使用和使用自动化工具时的位移的实际关系。结果与理论计算相符。
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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