Recent progress in miniaturized and reconfigurable filters for advanced communications and space applications

2011 MICROWAVES, RADAR AND REMOTE SENSING SYMPOSIUM Pub Date : 2011-10-20 DOI:10.1109/MRRS.2011.6053593

R. Sorrentino, L. Pelliccia, S. Bastioli

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引用次数: 6

Abstract

Innovative concepts are presented for both miniaturized high-selectivity and MEMS-based reconfigurable waveguide filters recently developed. The aim is to reduce size and weight of satellite telecommunication systems without compromising the high unloaded Q required in such applications. A first class of new miniaturized filters is based on ridges arbitrarily located and oriented within a waveguide. The ridges behave as quasi-TEM resonators and allow for pseudo-elliptic filter responses. A second class of very compact waveguide filters employs TM dual-mode cavities as building blocks to generate Nth order filters with N transmission zeros. Two new concepts have then been developed for high-Q bandpass filters with tunable central frequency or bandwidth using RF MEMS. Cantilever MEMS switches are suitably arranged in a rectangular waveguide so as to change either the TE101 mode resonant frequency or the coupling between E-plane filter resonators. Both approaches are shown to yield higher unloaded Q (∼1000) than previous approaches involving RF MEMS along with ridged or conductor-loaded cavities.

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用于先进通信和空间应用的小型化和可重构滤波器的最新进展

提出了近年来小型化、高选择性和基于mems的可重构波导滤波器的创新概念。其目的是减少卫星通信系统的尺寸和重量，而不影响此类应用所需的高卸载Q。第一类新型小型化滤波器是基于波导内任意定位和定向的脊。脊表现为准tem谐振器，并允许伪椭圆滤波器响应。第二类非常紧凑的波导滤波器采用TM双模腔作为构建块来生成具有N个传输零的N阶滤波器。然后开发了两个新的概念，用于使用RF MEMS的中心频率或带宽可调的高q带通滤波器。悬臂式MEMS开关适当地设置在矩形波导中，以改变TE101模式谐振频率或e平面滤波器谐振器之间的耦合。两种方法都显示出比以前涉及RF MEMS以及脊状或导体负载腔的方法产生更高的空载Q(~ 1000)。

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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2011 MICROWAVES, RADAR AND REMOTE SENSING SYMPOSIUM

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