Modeling and State Feedback Controller of SSSC Based Current Source Converter

A. Ajami, Mehdi Armaghan
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引用次数: 9

Abstract

Static Synchronous Series Compensator (SSSC) is a series connected FACTS devices. It is able to providing the reactive power compensation of power system. The SSSC injects a series ac voltage to transmission line through a transformer, which leads or lags the line current by 90°, thus emulating a controllable inductive or capacitive reactance. SSSC can be used to reduce the equivalent line impedance and thus enhance the active power transfer capability of the transmission line. SSSC is conventionally realized with a voltage-source converter. In this paper, an SSSC based on the current-source converter topology is proposed. The injected voltage is controlled according to the desired reactive power compensation. The decoupled state-feedback control for the injected voltage with a separated dc current control is applied to the proposed system. The advantages of the proposed scheme include fast dynamic response and high quality of current and voltage waveforms. The proposed SSSC has been simulated using the MATLAB software. The simulation results show that excellent current and voltage waveforms as well as very short response times can be obtained while operating at a low switching frequency. This makes the proposed scheme suitable for high power applications.
基于SSSC的电流源变换器建模与状态反馈控制器
静态同步串联补偿器(SSSC)是一种串联的FACTS器件。它能够为电力系统提供无功补偿。SSSC通过变压器向传输线注入一系列交流电压,变压器将线路电流超前或滞后90°,从而模拟可控的电感或容性电抗。SSSC可以降低等效线路阻抗,从而提高输电线路的有功传输能力。SSSC通常是用电压源变换器实现的。本文提出了一种基于电流源变换器拓扑结构的SSSC。根据所需的无功补偿来控制注入电压。对注入电压采用分离直流电流控制的解耦状态反馈控制。该方案具有动态响应快、电流和电压波形质量高的优点。利用MATLAB软件对该系统进行了仿真。仿真结果表明,在较低的开关频率下,可以获得良好的电流和电压波形以及极短的响应时间。这使得该方案适用于高功率应用。
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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