Design of coplanar bandstop filter based on open-loop-ring resonator and DGS for WLAN and UWB applications

2012 7th European Microwave Integrated Circuit Conference Pub Date : 2012-10-01 DOI:10.23919/EUMC.2012.6459142

A. Batmanov, E. Burte, R. Mikuta, A. Boutejdar, A. Omar, A. Khaidurova

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引用次数: 7

Abstract

Design of a novel compact bandstop filter composed on an open-loop-ring resonator and a defected ground structure (DGS) for coplanar waveguide is proposed and investigated. A simple coplanar open-loop-ring resonator has been designed and tested for the stop-band from 3.9 GHz to 4.3 GHz with tree transmission zeroes inside the stop-band. Two almost symmetrical poles are obtained on both sides of the stop-band. Then the proposed broad band bandstop filter based on the one open-loop-ring resonator has been transformed to the bandstop filter for WLAN (fm=3.6 GHz) applications (fm=3.6 GHz) with a narrower stop-band but with improved pass- and stop-band characteristics. It is realized by adding a conventional rectangular DGS slot inside the open-loop-ring. The equivalent circuit model has been proposed to describe the behaviour of the bandstop filters. The improved bandstop filter introduces the stop-band from 2.9 GHz to 4.2 GHz with two transmission zeroes within and more than -20 dB rejection. After that the proposed bandstop filter has been modified to the lowpass filter for ultra wide band (UWB) applications. The total size of the proposed structure is around 13.0×13.0 mm2. All bandstop filters have been fabricated and measured. Measurements are in good agreement with simulation results.

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基于开环环谐振器和DGS的WLAN和UWB共面带阻滤波器设计

提出并研究了一种新型的紧凑型带阻滤波器的设计，该滤波器由开环环谐振腔和缺陷接地结构组成，用于共面波导。设计并测试了一种简单的共面开环环谐振器，工作在3.9 GHz ~ 4.3 GHz的阻带范围内，阻带内有3个传输零点。在阻带的两侧得到两个几乎对称的极点。然后将所提出的基于一个开环环谐振器的宽带带阻滤波器转化为适用于WLAN (fm=3.6 GHz)应用的带阻滤波器(fm=3.6 GHz)，其阻带更窄，但通阻带特性和阻带特性都有所改善。它是通过在开环环内增加一个传统的矩形DGS槽来实现的。提出了等效电路模型来描述带阻滤波器的性能。改进的带阻滤波器引入了2.9 GHz到4.2 GHz的阻带，两个传输零点在-20 dB以内且大于-20 dB。之后，所提出的带阻滤波器已被修改为低通滤波器，用于超宽带(UWB)应用。拟议结构的总尺寸约为13.0×13.0 mm2。所有带阻滤波器已制作和测量。测量结果与仿真结果吻合较好。

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

2012 7th European Microwave Integrated Circuit Conference

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