Improved Low Voltage Ride Through by A STATCOM Based on Neutral Point Piloted (NPP) Multilevel Inverter

2021 29th Iranian Conference on Electrical Engineering (ICEE) Pub Date : 2021-05-18 DOI:10.1109/ICEE52715.2021.9544466

Y. Neyshabouri, M. Farhadi‐Kangarlu

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Abstract

By ever-increasing utilization of renewable energy systems, grid codes impose strict standards for current compensation, especially for asymmetric grid faults namely low voltage ride through (LVRT) codes. On the other hand, multilevel voltage source inverters have achieved prominent attention considering their lower dv/dt and harmonic content. This paper introduces a STATCOM based on neutral point piloted inverter (NPPI) for the first time. The studied 5-level NPPI has a single dc bus which feds all phases of the inverter and each phase contains two internal flying capacitors. A control system has been developed for NPPI-STATCOM through which the voltage of dc bus capacitor is controlled at its reference and using redundant switching states, the voltages of internal capacitors are balanced as well. Thus, NPPI-STATCOM control system is capable of balancing the voltage of internal capacitors even being connected to a faulty grid while positive and negative-sequence reactive currents being injected to the grid. Several simulation results in MATLAB/SIMULINK confirm the above claims indicating the performance of NPPI-STATCOM and the developed control system.

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基于中性点导频(NPP)多电平逆变器的STATCOM改进低压穿越

随着可再生能源系统利用率的不断提高，电网规范对电流补偿提出了严格的标准，特别是对电网不对称故障即低电压穿越(LVRT)规范。另一方面，多电平电压源逆变器由于其较低的dv/dt和谐波含量而备受关注。本文首次介绍了一种基于中性点导频逆变器(NPPI)的STATCOM。所研究的5电平NPPI具有单个直流母线，该母线连接逆变器的所有相，每相包含两个内部飞行电容器。设计了一种控制系统，将直流母线电容的电压控制在基准电压，并利用冗余开关状态平衡内部电容的电压。因此，NPPI-STATCOM控制系统能够平衡内部电容器的电压，即使连接到故障电网，而正序和负序无功电流注入电网。在MATLAB/SIMULINK中的仿真结果证实了上述说法，表明了NPPI-STATCOM和所开发的控制系统的性能。

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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2021 29th Iranian Conference on Electrical Engineering (ICEE)

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