Modelling of Inverse Fractional-Order Band-pass and Band-stop Filters using Fractional-Elements

2022 IEEE International Conference on Distributed Computing and Electrical Circuits and Electronics (ICDCECE) Pub Date : 2022-04-23 DOI:10.1109/icdcece53908.2022.9793241

Sumit Swain, Swaraj Sahoo, M. Tripathy, S. Behera

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引用次数: 9

Abstract

This paper discusses the analysis of inverse fractional-order band-pass and band-stop filter in frequency domain. The control models of the proposed fractional-order filters are examined using fractional-capacitor and fractional-inductors bearing impedances ${z_c} = \frac{1}{{{s^\alpha }}}$ and zL = Ls^β respectively with orders varying as 0.1<α<1.0 and 0.1<β1.0. The mathematical models of both the filters are obtained and the magnitude as well as the phase equations are derived. The design parameters are compared with its classical order counterpart and the dependencies of fractional-orders (α, β) are resulted with the center frequency, bandwidth, selectivity and roll-off-rates using MATLAB/Simulink. Here, a higher selectivity bandpass response is obtained using fractional-order inverse band-stop filter topology. Whereas, a higher bandwidth band-stop filter is realized using fractional-order inverse bandpass topology.

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分数阶带通和带阻逆滤波器的分数元建模

本文讨论了反分数阶带通带阻滤波器的频域分析。采用分数阶电容和分数阶电感分别阻抗${z_c} = \frac{1}{{{s^\alpha }}}$和zL = Lsβ，阶数分别为0.1<α<1.0和0.1<β1.0，对所提出的分数阶滤波器的控制模型进行了检验。建立了两种滤波器的数学模型，并推导了幅值方程和相位方程。利用MATLAB/Simulink将设计参数与经典阶设计参数进行了比较，得到了分数阶(α， β)与中心频率、带宽、选择性和滚降率的相关性。在这里，采用分数阶逆带阻滤波器拓扑结构获得了更高的选择性带通响应。而采用分数阶逆带通拓扑结构实现了更高带宽的带阻滤波器。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2022 IEEE International Conference on Distributed Computing and Electrical Circuits and Electronics (ICDCECE)

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