Non-Uniform Pitch Helical Resonators for Dual-Passband Filter Design

无线工程与技术(英文) Pub Date : 2022-01-01 DOI:10.4236/wet.2022.132002

Yahui Wu, R. Gajaweera, J. Everard

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Abstract

This paper presents a study of a non-uniform pitch helical resonator (NPHR) structure and the coupling mechanisms to design dual-passband filters. The previous research analyzes NPHR as a type of step impedance resonator (SIR), however, it does not give analytical equations or prediction for the dual-resonance characteristics of the NPHR structure discussed in this paper. Consequently, a circuit model is proposed to analyze the dual-resonance characteristics of NPHRs. Analytical equations are derived, showing that the frequency ratio of a dual-band NPHR can be determined by the ratio of turns. EM simulation and experimental results have shown good agreement with the circuit analysis. The derived analytical equations from circuit model can be used for fast design of NPHRs. A step-width aperture is proposed to independently control the coupling coefficients at the each band of NPHRs. A third order dual-passband filter has been designed and fabricated. The filter has 3.3% and 3% fractional bandwidths at 789 MHz and 2402 MHz, respectively. The designed prototype filter shows that NPHRs can be utilized to realize compact filters with dual-band characteristics. The filter design can be extended from engineering perspective for application in wireless communication systems.

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用于双通带滤波器设计的非均匀螺距螺旋谐振器

本文研究了非均匀螺距螺旋谐振器(NPHR)结构及其耦合机理，用于设计双通带滤波器。以往的研究将NPHR作为一种阶跃阻抗谐振器(SIR)进行分析，但并未对本文所讨论的NPHR结构的双共振特性给出解析方程或预测。因此，提出了一种电路模型来分析NPHRs的双谐振特性。推导了双频NPHR的解析方程，表明双频NPHR的频率比可以由匝数比决定。仿真和实验结果与电路分析结果吻合较好。由电路模型推导出的解析方程可用于NPHRs的快速设计。提出了一种步宽孔径来独立控制NPHRs各波段的耦合系数。设计并制作了一个三阶双通带滤波器。该滤波器在789 MHz和2402 MHz分别具有3.3%和3%的分数带宽。设计的原型滤波器表明，NPHRs可以实现具有双带特性的紧凑滤波器。该滤波器设计可以从工程角度进行扩展，应用于无线通信系统。

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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无线工程与技术(英文)

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