分数阶PID和调制迟滞用于多电平逆变器的高性能电流控制

I. Rasoanarivo, K. Tehrani, F. Sargos
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引用次数: 18

摘要

本文研究了一种由调制迟滞电流控制(MHCC)和分数阶PID (FOPID)控制器同时控制的多电平逆变器。转换器提供大范围的低感性负载,目的是将能量从直流电源转移到独立的电网。三角形单载波低频MHCC调节了多电平逆变器的负载电流,保证了低功耗、高生存能力、强坚固性和良好的电磁兼容性能。FOPID控制器允许保持恒定的电网电压。本文给出了仿真研究和实验结果,以验证该概念及其在实践中的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fractional Order PID and Modulated Hysteresis for high performance current control in multilevel inverters
The present paper deals with the study and the implementing of a multilevel inverter simultaneously controlled by Modulated Hysteresis Current Control (MHCC) and Fractional Order PID (FOPID) controllers. The converter supplies large ranges of low inductive loads in the purpose to transfer the energy from a DC supply source to an independent electrical network. The MHCC with low frequency of the triangular mono carrier adjusts the load current of the multilevel inverter, insures low power losses, high viability, strong sturdiness and good EMC behavior. The FOPID controller allows keeping constant the grid voltage. Simulation study and experimental results are presented in the paper for verifying the concept and its efficiency in practice.
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