Modelling and performance analysis of PID power system stabilizer using adaptation law in Simulink environment

K. Gowrishankar
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引用次数: 4

Abstract

In this paper, a self tuning Proportional Integral Derivative (PID) with PSS controller is presented for improving stability of a system in simulink environment. The development of a PID with power system stabilizer in order to maintain stability and enhance the performance of a power system is described widely. The application of the PID with PSS controller is investigated by means of simulation studies on a single machine infinite bus system. The functional blocks of PID with PSS are developed in Simulink and simulation studies are carried out. A study case for the validation of the proposed simulink mechanism is presented and analysed with control application for a synchronous generator excitation system. The superior performance of this stabilizer in comparison to PSS proves the efficiency of this new PID with PSS controller. The comparison studies carried out for various results such as speed deviation, field voltage, rotor angle and load angle in Simulink based MATLAB environment.
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Simulink环境下基于自适应律的PID电力系统稳定器建模与性能分析
为了提高系统在simulink环境下的稳定性,提出了一种带PSS控制器的自整定比例积分导数(PID)方法。为了保持电力系统的稳定和提高电力系统的性能,人们广泛地描述了带稳定器的PID的发展。通过对单机无限总线系统的仿真研究,探讨了PID与PSS控制器的应用。在Simulink中开发了带PSS的PID功能模块,并进行了仿真研究。通过对同步发电机励磁系统的控制应用,对所提出的simulink机构进行了验证和分析。与PSS相比,该稳定器的优越性能证明了该PID与PSS控制器的有效性。在基于Simulink的MATLAB环境下,对转速偏差、场电压、转子角、负载角等各种结果进行了对比研究。
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