p级相量测量单元算法使用自适应滤波，以提高非标称频率的精度

2011 IEEE International Conference on Smart Measurements of Future Grids (SMFG) Proceedings Pub Date : 2011-11-14 DOI:10.1109/SMFG.2011.6125761

A. Roscoe, I. Abdulhadi, G. Burt

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引用次数: 26

摘要

虽然目前相量测量单元(pmu)的C.37.118-2005标准只要求在稳态条件下进行测试，但拟议的新版本标准要求进行更严格的测试，包括频率坡道和非标称频率测试。本文提出了“P类”pmu的两种新算法，使非标称频率下的性能保持在与标称频率输入的性能相当的水平。将算法的性能与新标准中描述的“基本”同步相量估计模型进行了比较。所提出的算法比“基本”算法表现出更好的性能，特别是在非标称频率和存在不平衡和谐波的频率和频率变化率的测量中。

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P-Class Phasor Measurement Unit algorithms using adaptive filtering to enhance accuracy at off-nominal frequencies

While the present standard C.37.118-2005 for Phasor Measurement Units (PMUs) requires testing only at steady-state conditions, proposed new versions of the standard require much more stringent testing, involving frequency ramps and off-nominal frequency testing. This paper presents two new algorithms for “P Class” PMUs which enable performance at off-nominal frequencies to be retained at levels comparable to the performance for nominal frequency input. The performances of the algorithms are compared to the “Basic” Synchrophasor Estimation Model described in the new standard. The proposed algorithms show a much better performance than the “Basic” algorithm, particularly in the measurements of frequency and rate-of-change-of-frequency at off-nominal frequencies and in the presence of unbalance and harmonics.

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2011 IEEE International Conference on Smart Measurements of Future Grids (SMFG) Proceedings

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