Analysis of the Metal Plate Coupled Resonator With Its Compact In-Line Filter Design Applications

This article introduces and analyzes the modified metal plate coupled resonator (MPCR), which can be designed to exhibit distinctive nondegenerate dual-mode characteristics, i.e., having different resonating frequencies and presenting quasi-orthogonal features (e.g., no coupling). By employing diffe...

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Bibliographic Details
Published inIEEE transactions on microwave theory and techniques Vol. 72; no. 9; pp. 5455 - 5466
Main Authors Rao, Jiayu, Sun, Cong, Lu, Jiajin, Gao, Qian, Zhou, Bowei, Zhao, Hualin, Liu, Hai, Zhang, Sheng, Vaitukaitis, Povilas, Wang, Lei, Hong, Jiasheng
Format Journal Article
LanguageEnglish
Published New York IEEE 01.09.2024
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects
3-D metal printing
Band-pass filters
Bandpass coaxial filter
Controllability
Coupled modes
Coupling
Couplings
Design
Elliptic functions
Filter design (mathematics)
Filtering theory
in-line topology filters
Metal plates
Metals
Microwave filters
Rapid prototyping
Resonant frequency
Resonator filters
Resonators
Single mode operation
Topology
transmission zeros (TZs)
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Summary:This article introduces and analyzes the modified metal plate coupled resonator (MPCR), which can be designed to exhibit distinctive nondegenerate dual-mode characteristics, i.e., having different resonating frequencies and presenting quasi-orthogonal features (e.g., no coupling). By employing different feeding methods, the MPCR can function as either a single-mode or dual-mode resonator, both of which are suited for the design of in-line filters with controllable transmission zeros (TZs). For the single-mode operation, new mixed-coupling-based in-line filters can be designed to yield noteworthy advancements compared to prior research, as these filters achieve arbitrary placement of TZs without necessitating any additional structures. For the dual-mode operation, more compact in-line filters based on transverse coupling topology for achieving quasi-elliptic function response can be designed. In general, all filters developed in this work provide the advantages of adjustable TZs and simple physical configurations. For the rapid prototyping and the experimental demonstration, certain <inline-formula> <tex-math notation="LaTeX">{C} </tex-math></inline-formula>-band filters were designed and manufactured using 3-D metal printing technology. Meanwhile, for the first time, the necessity of introducing post-magnetic tuning is validated and then applied to the mixed-coupled filters. As a result, all testing results showed consistency with the simulated ones.
ISSN:0018-9480
1557-9670
DOI:10.1109/TMTT.2024.3366759