磁感应式能量采集器及其交直流变换器的优化设计

Qian Sun, S. Patil, S. Stoute, N. Sun, B. Lehman
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引用次数: 15

摘要

介绍了一种新型高磁导率磁性材料与双极性升压变换器相结合的感应磁能收集系统的设计。利用线圈与永磁体之间的强静磁相互作用,能量采集器的输出功率和功率密度比传统的气芯电感采集器有所提高。在本文提出的双极性升压变换器中,利用收集器的线圈泄漏电感构成升压变换器的输入电感,以减小变换器的尺寸。因此,磁能采集器和电源转换器共用同一个磁芯。优化的系统设计成为一个平衡的铁芯尺寸,所需的泄漏电感和所需的磁化电感,以提取最大的能量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Optimum design of magnetic inductive energy harvester and its AC-DC converter
The design of a new-type of inductive magnetic energy harvesting system with high permeability magnetic material combined with a dual polarity boost converter is presented. By using the strong magnetostatic interaction between the coils and permanent magnets, the output power and power density of the energy harvester is enhanced compared to conventional air cored inductive harvesters. In the proposed dual polarity boost converter, the coil leakage inductor of the harvester is utilized to form the input inductor of the boost converter to minimize the converter size. Therefore, the magnetic energy harvester and the power converter share the same magnetic core. Optimum system design becomes a balance of core size, required leakage inductance and required magnetizing inductance in order to extract maximum energy.
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