Dual-Band Bandpass Coaxial Cavity Filters With Controllable Center Frequencies and Bandwidths Using F-Shaped Resonators

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of microwaves Pub Date : 2023-09-18 DOI:10.1109/JMW.2023.3311356

Wenhao Li;Yun Liu;Shanhui Pei

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Abstract

In this study, a novel dual-band bandpass coaxial cavity filter with large design freedoms for center frequencies and bandwidths is proposed by introducing F-shaped dual-mode resonators. Each F-shaped dual-mode resonator is capacitively loaded with two tuning screws for simultaneously tuning two frequencies. A dual-iris structure is implemented for the couplings between the two dual-mode resonators, with two screws applied to enhance the couplings. A dual-disc capacitive coupling is implemented at the input and output ports. By introducing these structures, the frequencies and bandwidths of the two passbands can have large design freedoms. A third-order dual-band filter at 0.845 GHz/1.790 GHz with bandwidths of 12 MHz/26 MHz is also designed, fabricated, and measured. Low insertion losses of 0.4 dB and 0.35 dB are achieved at the passbands. In comparison with planar dual-band bandpass filters, the filter presented in this study offers lower insertion losses and more convenience in filter tuning.

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使用f形谐振器的中心频率和带宽可控的双频带通同轴腔滤波器

在本研究中，通过引入F形双模谐振器，提出了一种新的双频带通同轴腔滤波器，该滤波器对中心频率和带宽具有较大的设计自由度。每个F形双模谐振器都用两个调谐螺钉电容加载，用于同时调谐两个频率。两个双模谐振器之间的耦合采用了双光圈结构，并采用了两个螺钉来增强耦合。在输入和输出端口处实现了双盘电容耦合。通过引入这些结构，两个通带的频率和带宽可以具有大的设计自由度。还设计、制造和测量了带宽为12MHz/26MHz的0.845GHz/1.790GHz的三阶双频带滤波器。在通带处实现了0.4dB和0.35dB的低插入损耗。与平面双频带通滤波器相比，本研究提出的滤波器具有较低的插入损耗和更方便的滤波器调谐。

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