Taylor-Fourier PMU on a Real-Time Simulator: Design, Implementation and Characterization

2019 IEEE Milan PowerTech Pub Date : 2019-08-26 DOI:10.1109/PTC.2019.8810660
G. Frigo, A. Derviškadić, Y. Zuo, A. Bach, M. Paolone
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引用次数: 17

Abstract

The development of software models of Phasor Measurement Units (PMUs) within Real-Time Simulators (RTSs) represents a promising tool for the design and validation of monitoring and control applications in electrical power networks. In this sense, it is necessary to find an optimal trade-off between computational complexity and estimation accuracy. In this paper, we present the design and implementation of two new PMU models within the Opal-RT eMEGAsim RTS. The synchrophasor estimation algorithm relies on a Compressive Sensing Taylor-Fourier Model (CS-TFM) approach, and enables us to extract the dynamic phasor associated to the signal fundamental component. The estimation accuracy of the proposed models is characterized with respect to the compliance tests of the IEEE Std. C37.118.1.
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实时模拟器上的Taylor-Fourier PMU:设计、实现和表征
实时模拟器(RTSs)中的相量测量单元(pmu)的软件模型的开发代表了电网监测和控制应用的设计和验证的有前途的工具。从这个意义上说,有必要在计算复杂度和估计精度之间找到一个最优的权衡。在本文中,我们介绍了Opal-RT eMEGAsim RTS中两个新的PMU模型的设计和实现。同步相量估计算法依赖于压缩感知泰勒-傅立叶模型(CS-TFM)方法,使我们能够提取与信号基本分量相关的动态相量。根据IEEE标准C37.118.1的符合性测试,对所提出模型的估计精度进行了表征。
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2019 IEEE Milan PowerTech
2019 IEEE Milan PowerTech
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