电网技术2026,Vol.50Issue(3):中插103,1245-1254,11.DOI:10.13335/j.1000-3673.pst.2024.1996
基于工作点波动性的电压电流波形畸变表征与求解
Characterization and Solution of Voltage and Current Waveform Distortion Based on Operating Point Fluctuation
摘要
Abstract
Under the trend of increased power electronics integration in power equipment,waveform distortion of voltage and current exhibits time-variability and randomness.Consequently,discrete frequency-based waveform characterization methods relying on a constant power frequency period and consistent distortion shape are unsuitable for practical engineering.This paper considers the power frequency voltage and current components as operating points.At the same time,waveform distortions are viewed as fluctuations at these points and are characterized by additional amplitude and phase fluctuations of the power frequency.The feasibility of characterizing harmonics,attenuated DC components,attenuated AC components,and their combinations using fluctuations at the operating point is demonstrated.The operating point is determined using a trust-region-reflective(TRR)method,and fluctuations are resolved using a designed Hilbert filter.Simulation results demonstrate that the proposed method achieves high accuracy in estimating power frequency components and amplitude-phase fluctuation parameters,while allowing flexible data length selection.Compared to methods based on Discrete Fourier Transform(DFT)and Wavelet Packet Transform(WPT),it offers advantages such as independence from synchronized sampling of complete cycles and higher distortion representation accuracy.Moreover,the method exhibits strong noise immunity.This method holds potential applications in analyzing waveform distortion issues at different time scales,such as harmonics and oscillations in the power system.关键词
波形畸变/工作点/波动性/幅值波动/相角波动Key words
waveform distortion/operating point/fluctuation/amplitude fluctuation/phase fluctuation分类
信息技术与安全科学引用本文复制引用
李洋,宋国兵,张宇轩..基于工作点波动性的电压电流波形畸变表征与求解[J].电网技术,2026,50(3):中插103,1245-1254,11.基金项目
智能电网国家科技重大专项项目(2030)(2024ZD0802300).Project Supported by Smart Grid-National Science and Technology Major Project(2024ZD0802300). (2030)
