h桥串级SSSC顶层控制的非线性PID控制器

Zhao Yang, Xiao Xiangning, Xudong Jia
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引用次数: 8

摘要

静态串联同步补偿器(SSSC)是一种基于电压源变换器(VSC)的串联FACTS器件,可以通过快速控制线路阻抗来优化潮流,提高电力系统的稳定性。根据本文提出的SSSC三电平控制结构,当SSSC中间层控制工作在恒阻抗模式时,从顶层看,SSSC具有阻抗可控的特点。本文将SSSC的输出等效为可控阻抗,无需采用其他文献提出的复合坐标变换方法,即可得到包含SSSC的单机无限母线(SMIB)电力系统的仿射非线性方程,并可直接采用反馈精确线性化方法得到SSSC顶层非线性控制器。为了避免求解偏微分方程,采用直接法简单方便地实现精确线性化。为了克服精确反馈线性化方法由于被控系统参数和模型的不确定性而导致鲁棒性低的缺点,采用非线性PID控制设计了SSSC顶层控制器。最后,本文应用实时数字仿真(RTDS)验证了所提出的建模和控制方法在抑制电力系统振荡方面的可行性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nonlinear PID controller of H-bridge cascade SSSC top level control
As a series FACTS device based on Voltage Source Converter (VSC), Static Series Synchronous Compensators (SSSC) can optimize power flow and improve power system stability by controlling the line impedance rapidly. According to the three levels control structure of SSSC proposed in this paper, when SSSC middle level control operates at constant impedance mode, it has characteristic of controllable impedance as viewed from the top level. In this paper, the output of SSSC is equivalent to controllable impedance and then affine nonlinear equation of the single machine infinite bus (SMIB) power system including a SSSC can be obtained without the compound coordinate transformation approach which is proposed by other documentation and the feedback exact linearization method can be used directly to obtain the SSSC top level nonlinear controller. For avoiding solving the partial differential equation, the direct method is used to realize the exact linearization simply and conveniently. For overcome the shortcoming of low robustness of exact feedback linearization approach due to uncertainty of parameters and model of controlled system, the nonlinear PID control is used to design the SSSC top level controller. Finally the paper applies Real Time Digital Simulator (RTDS) to validate the feasibility of the proposed modeling and control approach in damping out power system oscillations.
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