高选择性双频带微波带通滤波器设计

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本文档探讨了一种新颖的高选择性双频带微波带通滤波器（BPF）设计，该滤波器利用了双重模式和三重模式谐振器的独特组合。作者Xiaoguo Huang, Quanyuan Feng, QianYin Xiang 和 Dinghong Jia 来自西南交通大学信息科学与技术学院，他们在《电磁学研究进展》(ProgressInElectromagneticsResearchC) 第36卷，2013年81-90页上发表了这项研究。首先，设计了一个由两个共输入/输出端口的双重模式单频带滤波器组成的双频带滤波器系统。每个单频带滤波器是通过中心加载的串联开槽短路（Stepped Impedance Resonator, SIR）实现的，这使得第一和第二通带可以独立控制。这种设计的优势在于它提供了更高的灵活性，可以精确地调整频率响应。为了提升滤波器在第一通带高频部分的选频性能，文中提出了一个创新的三重模式谐振器来替换原有的双模谐振器。三重模式谐振器的基本结构采用了微带到共平面波导(Coplanar Waveguide, CPW)转换，这样可以提供额外的传输零点（Transmission Zeros, TZs），进一步增强滤波器的选择性，减少旁瓣效应，提高信号传输的纯净度。整个设计策略旨在优化滤波器的性能，使得在满足两个工作频带的同时，具有较高的选择性和低的插入损耗，这对于许多无线通信、雷达系统以及信号处理应用来说是非常重要的。此外，通过使用不同的谐振器配置，设计师能够根据实际需求定制滤波器的特性，如带宽、中心频率和阻带衰减，使其适应于各种电子设备中的多频段信号过滤需求。这篇论文提供了一种实用且高效的解决方案，对于高级信号处理技术的发展具有一定的推动作用。

Progress In Electromagnetics Research C, Vol. 36, 81–90, 2013

A HIGH SELECTIVITY DUAL-BAND BANDPASS FIL-

TER USING DUAL-MODE AND TRIPLE-MODE RES-

ONATORS

Xiaoguo Huang, Quanyuan Feng

, QianYin Xiang, and

Dinghong Jia

School of Information Science and Technology, Southwest Jiaotong

University, Chengdu, Sichuan 610031, China

Abstract—In this paper, a novel high selectivity dual-band microwave

bandpass ﬁlter (BPF) using dual-mode and triple-mode resonator is

proposed. First, a dual-band ﬁlter comprising two dual-mode single

band ﬁlters using common input/out lines is designed. Each single

BPF is realized using a stepped-impedance resonator (SIR) with a

centrally-loaded shunt op en stub. The ﬁrst and second passband

can be independently controlled by the two dual-mode resonators,

respectively. The proposed ﬁlter also oﬀers three transmission zeros

(TZs) to improve the selectivity. To further improve the selectivity

over high side band of the ﬁrst passband, a novel triple-mode resonator

is designed to replace the dual-mode resonator. The basic structure

of triple-mode resonator is microstrip-to-coplanar waveguide (CPW)

structure. The microstrip structure provides one odd mode and one

even mo de resonant frequency and the CPW structure can provide

another even mode resonant frequency without increasing circuit size.

Both simulated and measured results show that the ﬁlters exhibit a

good performance, including a small insertion loss, selectivity.

1. INTRODUCTION

Due to the rapid development of wireless communication technology,

microwave ﬁlters with dual-band, high frequency selectivity and

compact size are highly demanded to the multi-mode communication

system [1–3]. For example, global system for mobile communications

(GSM) and wireless local area networks (WLANs) standards. Thus,

much research regarding dual-band ﬁlters has been carried out.

Received 17 December 2012, Accepted 5 January 2013, Scheduled 9 January 2013

* Corresponding author: Quanyuan Feng (fengquanyuan@163.com).

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