Fast Transient Harmonic Selective Extraction Based on Modulation-CDSC-SDFT

Jingwen Zhang, Zhenglei Wang, Xiaotao Han
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引用次数: 2

Abstract

The fast harmonic compensation ability of active power filter (APF) is limited by the transient time of harmonic extraction method. The frequency-domain extraction method based on Discrete Fourier Transform (DFT) suffers from the disadvantage of one fundamental cycle transient time. Therefore, this paper proposes a selective harmonic extraction method based on Modulation-CDSC-SDFT, which improves the fundamental analysis frequency of Sliding DFT (SDFT) by modulation and Cascaded Delayed Signal Cancellation (CDSC) operations in advance to shorten the transient time significantly. Aiming at the harmonic compensation case of finite odd and even harmonics generated by an electric arc furnace, the configuration process and simulation results are given. The fundamental detection transient time can be as short as 0.23 cycle when the modulation frequency is set to 20th order. Moreover, faster transient can be obtained with a higher modulation frequency.
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基于调制- cdsc - sdft的快速瞬态谐波选择性提取
谐波提取方法的暂态时间限制了有源电力滤波器的快速谐波补偿能力。基于离散傅立叶变换(DFT)的频域提取方法存在一个基本周期瞬态时间的缺点。因此,本文提出了一种基于调制-CDSC-SDFT的选择性谐波提取方法,通过提前调制和级联延迟信号抵消(CDSC)运算提高滑动DFT (SDFT)的基频分析频率,显著缩短暂态时间。针对电弧炉产生有限奇偶次谐波的谐波补偿情况,给出了配置过程和仿真结果。当调制频率设置为20阶时,基波检测瞬态时间可短至0.23个周期。此外,更高的调制频率可以获得更快的瞬态。
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