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首页> 外文会议>Power and energy systems >POWER SYSTEM CONTROLLER DESIGN BASED ON MODEL IDENTIFICATION WITH PHASOR MEASUREMENTS
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POWER SYSTEM CONTROLLER DESIGN BASED ON MODEL IDENTIFICATION WITH PHASOR MEASUREMENTS

机译:基于相量测量模型识别的电力系统控制器设计

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摘要

This paper presents a method for the tuning of a power system stabilizer (PSS) for damping inter-area low-frequency oscillations based on wide area phasor measurements and H_∞ control theory. The dynamics of a power system is identified as an approximate model based on voltage phasors obtained by the wide area measurement system (WAMS). Then, a PSS is designed by applying H_∞ control theory on the approximate model. The inter-area mode should be damped effectively by a well-tuned PSS based on the state monitoring with the modeling error compensation considered. The proposed method has been applied to a simple two-area system to demonstrate the effectiveness of this approach.
机译:本文提出了一种基于广域相量测量和H_∞控制理论的用于抑制区域间低频振荡的电力系统稳定器(PSS)的调谐方法。基于广域测量系统(WAMS)获得的电压相量,将电力系统的动力学识别为近似模型。然后,通过在近似模型上应用H_∞控制理论来设计PSS。基于状态监视并考虑建模误差补偿的情况下,通过状态良好的PSS可以有效地抑制区域间模式。所提出的方法已应用于简单的两区域系统,以证明此方法的有效性。

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