Design of Triple Tuned Passive Harmonic Power Filter—A Novel Approach

IF 2.1 Q3 COMPUTER SCIENCE, HARDWARE & ARCHITECTURE IEEE Canadian Journal of Electrical and Computer Engineering Pub Date : 2023-10-06 DOI:10.1109/ICJECE.2023.3296826
Kumar Reddy Cheepati;E. Parimalasundar;K. Suresh;Ch. Rami Reddy;Mohammed M. Alqahtani;Muhammad Khalid
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Abstract

Nowadays, there is a race between active and passive harmonic filters and still ambiguity persists. It is a proven fact that active harmonic filters (AHFs) are costly solutions though have proved better than passive harmonic filters. Except sizing and resonance problems, tuned passive harmonic filters (TPHFs) are proved to give economical solutions with little compromise on their performance. The accurate design of TPHFs gives a greater impact on its performance. The triple-TPHF (TTPHF) is essential to alleviate first three dominant ac side current harmonics simultaneously at the high voltage direct current (HVdc) converters and it is proved better than the single and double TPHFs. Existing equivalent methods of TTPHF design failed to give satisfactory performance under dynamic conditions. Hence, this article introduces a novel parametric method-based design of TTPHF, which will give better performance under static and dynamic loading conditions. The results also reveal that the proposed TTPHF design method will perform better than the existing methods.
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三调谐无源谐波滤波器的设计——一种新方法
如今,有源和无源谐波滤波器之间存在竞争,但模糊性仍然存在。事实证明,有源谐波滤波器(AHF)是成本高昂的解决方案,尽管已被证明比无源谐波滤波器更好。除了尺寸和谐振问题外,调谐无源谐波滤波器(TPHFs)被证明可以提供经济的解决方案,而对其性能几乎没有影响。TPHF的精确设计对其性能产生了更大的影响。三重TPHF(TTPHF)对于同时减轻高压直流(HVdc)变换器的前三个主要交流侧电流谐波至关重要,并且它被证明比单重和双重TPHF更好。现有的TTPHF等效设计方法在动态条件下未能给出令人满意的性能。因此,本文介绍了一种新的基于参数化方法的TTPHF设计方法,该方法将在静态和动态载荷条件下提供更好的性能。结果还表明,所提出的TTPHF设计方法将比现有方法表现得更好。
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