OVT逆变器的性能依赖于滤波逆变器的开关频率

Q4 Energy
A. Muc, J. Iwaszkiewicz
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引用次数: 0

摘要

介绍了一种基于正交空间矢量理论的逆变器(OVT逆变器)及其性能。OVT逆变器由两个组成的两电平三相逆变器组成:主逆变器(MI)和辅助逆变器(AI)。MI以一种简单的方式控制以产生阶跃输出电压,AI作为有源滤波器限制OVT输出电压中的高谐波。利用正交空间矢量理论形成滤波过程。OVT逆变器的输出电压采用与多电平逆变器产生的电压相当的阶跃电压的形状。人工智能作为OVT逆变器输出电压的一个非常有效的有源电源滤波器(APF)。与MI功率相比,AI功率明显较低,但其开关频率影响OVT性能。本文研究了逆变器开关频率滤波器的变化对正交逆变器的工作和输出电压THD的影响。提高滤波器逆变器的开关频率,可以提高逆变器的性能,减小变压器的尺寸,起到求和节点的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Performance of an OVT inverter reliant on the switching frequency of the filtering inverter
The paper presents an inverter based on the orthogonal space vectors theory (OVT inverter) and its performance. The OVT inverter consists of two constituent twolevel 3-phase inverters: the main inverter (MI) and the auxiliary one (AI). The MI is controlled in a simple way to generate the stepped output voltage and the AI works as an active filter limiting the higher harmonics in the OVT output voltage. The filtering process is formed by the use of the orthogonal space vector theory. The output voltage of the OVT inverter takes the shape of a stepped voltage comparable to the voltage generated by multilevel inverters. The AI operates as a very effective active power filter (APF) of the OVT inverter output voltage. The AI power is significantly lower in comparison to the MI power nevertheless its switching frequency affects the OVT performance. The article describes studies in which the impact of changes in the switching frequency filter inverter on the operation of the orthogonal inverter and the output voltage THD. Increasing the filter inverter switching frequency improved performance and reduced the transformer size, which acts as a summing node.
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来源期刊
Renewable Energy and Power Quality Journal
Renewable Energy and Power Quality Journal Energy-Energy Engineering and Power Technology
CiteScore
0.70
自引率
0.00%
发文量
147
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