开环和闭环并联-串联变换器的无线电力传输仿真

2022 IEEE Global Conference on Computing, Power and Communication Technologies (GlobConPT) Pub Date : 2022-09-23 DOI:10.1109/GlobConPT57482.2022.9938216

Mayank Arora, Gururaj M V, Ankush Sharma

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引用次数: 0

摘要

通常，无线电力传输使用由电流源(CSI)逆变器供电的并联串联架构进行补偿。它主要是调节在占空比与50%的方法。这允许系统以其谐振频率运行，该频率由于负载以及其他可变波动而徘徊。由于这种控制限制，通过在电路端安装额外的dc-dc转换器来满足负载规格。该仿真研究为并联-串联WPT拓扑提供了一种开环和闭环控制方法，该方法由全桥CSI提供，可直接满足负载要求。因此，转换器的输出侧斩波器被消除。控制目标通过双环技术来实现，其中源电流由内环调节，负载电流由外环调节。本文详细介绍了PSIM软件中变换器的设计分析和闭环控制设计。

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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Simulation of Parallel-Series Converter in Open Loop and Closed Loop for Wireless Power Transfer

Typically, the wireless power transfer is compensated using Parallel Series architecture powered by an inverter that is current sourced (CSI). It is mainly regulated at duty cycle with a 50% approach. This allows the system to run at its resonance frequency, which wanders as a result of load as well as other variable fluctuations. Due to such a controlling limitation, the loading specifications are met by installing an extra dc-dc converter at the circuit end. This simulation study provides an open loop and closed loop control approach for a Parallel-Series WPT topology, which is supplied by a full-bridge CSI to fulfill the load requirement directly. So, the converter's output side chopper is eliminated. The control objectives are met by a two-loop technique in which source current is regulated by the inner loop and load current by outer loop. This study describes in-depth converter design analysis and closed loop control design in PSIM software.

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2022 IEEE Global Conference on Computing, Power and Communication Technologies (GlobConPT)

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