新型人工肛门括约肌经皮平面夹层结构能量传递线圈的耦合分析

L. Ke, Guo-zheng Yan, Sheng Yan, Zhi-wu Wang, Da-sheng Liu
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引用次数: 8

摘要

本文给出了一组用于确定经皮能量传递(TET)系统中初级和次级利兹丝平面线圈之间耦合系数的解析表达式。一种TET系统被设计为一种新型的弹性缩放人工肛门括约肌系统(ES-AASS)提供动力,用于治疗严重的大便失禁(FI),这种情况将受益于优化的TET。给出了平面线圈在铁氧体衬底上自感和互感的几何尺寸依赖性表达式。还考虑了铁氧体衬底电导率、相对磁导率和几何尺寸的影响。为验证上述表达式的正确性,采用三维有限元分析方法对平面线圈间的相互耦合进行了计算,所得表达式与数值结果吻合较好。不同类型的平面线圈有或没有铁氧体衬底。对每种情况的实测结果与理论预测和有限元分析结果进行了比较。理论计算结果和有限元分析结果与实验数据吻合较好。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coupling analysis of transcutaneous energy transfer coils with planar sandwich structure for a novel artificial anal sphincter
This paper presents a set of analytical expressions used to determine the coupling coefficient between primary and secondary Litz-wire planar coils used in a transcutaneous energy transfer (TET) system. A TET system has been designed to power a novel elastic scaling artificial anal sphincter system (ES-AASS) for treating severe fecal incontinence (FI), a condition that would benefit from an optimized TET. Expressions that describe the geometrical dimension dependence of self- and mutual inductances of planar coils on a ferrite substrate are provided. The effects of ferrite substrate conductivity, relative permeability, and geometrical dimensions are also considered. To verify these expressions, mutual coupling between planar coils is computed by 3D finite element analysis (FEA), and the proposed expressions show good agreement with numerical results. Different types of planar coils are fabricated with or without ferrite substrate. Measured results for each of the cases are compared with theoretical predictions and FEA solutions. The theoretical results and FEA results are in good agreement with the experimental data.
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