基于同轴谐振器的多态腔双工器设计

0 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE microwave and wireless technology letters Pub Date : 2024-06-26 DOI:10.1109/LMWT.2024.3416545
Yu-Ming Li;Hong-Ji Li;Chao Wu;Sai-Wai Wong
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引用次数: 0

摘要

本文首次介绍了基于同轴谐振器的多态双工器的设计方法。通过将一个大型圆柱形腔体分割成多个部分,建立了广泛的频率信道,从而能够通过选择特定频率信道形成双工器的不同状态。通过在谐振器中引入交叉耦合,在每个信道内实现零传输,从而产生尖锐的带外抑制裙边。所提出的多态双工器性能提高,结构紧凑。设计并展示了一个三阶四态双工器(FSD),同样的方法可用于创建 mth 阶和 n 阶双工器。为了验证这一概念,对 FSD 进行了制造和测量,测量结果与模拟结果显示出良好的一致性。
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Design of Multistate Cavity Diplexers Based on Coaxial Resonators
The design approach for multistate diplexers based on coaxial resonators is presented for the first time in this letter. By partitioning a large cylindrical cavity into multiple sections, a wide range of frequency channels is established, enabling the formation of different states for the diplexer through the selection of specific frequency channels. By introducing cross coupling in the resonators, a transmission zero is achieved within each channel, resulting in sharp out-of-band rejection skirts. The proposed multistate diplexers exhibit improved performance along with compact structures. A third-order four-state diplexer (FSD) is designed and presented, and the same methodology can be applied to create the mth-order and n-state diplexers. To validate this concept, the FSD is fabricated and measured, with the measurement results exhibiting good agreement with the simulation results.
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