Delay margin computation of load frequency control system with demand response and constant communication delays

i-manager’s Journal on Electrical Engineering Pub Date : 1900-01-01 DOI:10.26634/jee.15.3.18512

A. Jawahar, K. Ramakrishanan

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Abstract

The paper aims to present a comprehensive delay-dependent stability analysis technique of a networked single area Load Frequency Control (LFC) systems integrated with demand response. Demand Response (DR) has been an integral part of power system control and operation. The time-delays in LFC schemes are due to the utilization of communication channels for signal transmission among the various sub-systems and control center. The deterioration of the dynamic performance of the system is the most feasible effect of time-delays and at the worst these delays lead to instability. Therefore, the computation of delay margins for a stable operation of the single-area LFC system with DR control is crucial. A less conservative stability criterion using Lyapunov approach is derived in linear matrix inequality framework for determining the stability of closed loop LFC system under study. The stability criterion is tested for different subsets of the controller parameters and participation factors using standard benchmark system. Through extensive simulation results, the analytical results are validated. The time domain simulation results indicate the effectiveness of the analytical results.

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具有需求响应和恒定通信延迟的负荷频率控制系统的延迟余量计算

提出了一种考虑需求响应的网络化单区负荷频率控制系统的综合时滞稳定性分析技术。需求响应(DR)已成为电力系统控制和运行的重要组成部分。LFC方案的时延是由于各子系统和控制中心之间使用通信信道进行信号传输造成的。时滞最可能导致系统动态性能的恶化，在最坏的情况下会导致系统不稳定。因此，计算具有DR控制的单区域LFC系统的稳定运行的延迟裕量是至关重要的。在线性矩阵不等式框架下，利用Lyapunov方法导出了一个较小保守性的LFC闭环系统稳定性判据。利用标准基准系统对控制器参数和参与因子的不同子集进行了稳定性判据的测试。通过大量的仿真结果，验证了分析结果。时域仿真结果表明了分析结果的有效性。

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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i-manager’s Journal on Electrical Engineering

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