可能用于磁刺激的电源

D. Sousa, A. Ferraz
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引用次数: 1

摘要

本文介绍了一种具有潜在应用于生物系统磁刺激的电源。磁刺激的效果取决于感应电场的几何形状和方向,以及由刺激器(线圈)传递的电流脉冲波形。这些因素对于确定设备要求和特性非常重要,即电源的拓扑结构和线圈的尺寸和几何形状。所提出的解决方案能够根据用户定义的输入产生具有可变振幅和持续时间的电流脉冲。介绍了其主要特点和工作原理,包括控制策略。为了设计、分析和验证所开发电源的性能,给出了仿真和实验结果。提出的解决方案是基于一种拓扑结构,该拓扑结构使用元件来存储和传输从电源到负载的能量。利用所提出的拓扑结构,适当的控制策略和正确的电源电路参数集,可以获得单极波或双极波。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Power Supply with Potential Use in Magnetic Stimulation
A power supply with potential use in the magnetic stimulation of biological systems is presented in this paper. The effect of the magnetic stimulation depends on the geometry and orientation of the induced electric field, as well as on the current pulse waveform delivered by the stimulator (coil). These factors are very important to define the equipment requirements and characteristics, namely the topology of the power supply and the size and geometry of the coil. The proposed solution is able to generate current pulses with variable amplitude and duration, according to a user- defined input. The main characteristics and the working principle, including the strategy of control, are described. In order to design, to analyse and to verify the performance of the developed power supply, both simulation and experimental results are presented. The proposed solution is based on a topology that uses elements to store and transfer energy from the power source to the load. With the proposed topology, an adequate control strategy and right set of the power circuit parameters it is possible to obtain either unipolar waves or bipolar waves.
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