用于多用途 SATCOM/地面终端的集成式宽带多路复用器设计

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of microwaves Pub Date : 2024-02-09 DOI:10.1109/JMW.2024.3356308
Chad Bartlett;Michael Höft;Uwe Rosenberg
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引用次数: 0

摘要

本文介绍了一种新型宽带多路复用器,作为一种通信设备解决方案,可在专用的 $K$/$Ka$ 频段(通带范围为 19.5 千兆赫至 30.5 千兆赫)同时提供卫星和地面服务。该系统采用先进的射频滤波技术,以适应紧凑型多路复用器的设计,同时保持低插入损耗和高达 33 GHz 的高抑制要求。由于整体带宽较宽,且指定的三个工作频段要求苛刻,因此采用了不同类型的滤波器。因此,该多路复用器考虑了矩形、蒸发连线和导体负载谐振器类型滤波器的组合。多路复用器采用直接分支方法,即所有滤波器都连接到一个中央(星形结)波导分支区域。该区域缩小了波导尺寸,以抑制高阶模式的干扰。为了验证这种方法,在原型设计中,所有端口都考虑了 WR34 波导接口,但这种设计也适用于具有相关直接接口的集成设备解决方案。原型的分析性能和测量性能的精确吻合证明了特殊方法的有效性。此外,还提供了额外的模拟,作为满足特定行业需求的终端大纲。
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Integrated Wideband Multiplexer Design for Multiple-Use SATCOM/Terrestrial Terminals
A novel wideband multiplexer is introduced as a communications equipment solution in order to provide simultaneous operation of satellite and terrestrial services in the dedicated $K$ / $Ka$ frequency bands (passbands ranging from 19.5 GHz to 30.5 GHz). Advanced RF filtering techniques are applied in order to accommodate a compact multiplexer design while maintaining low insertion loss and high rejection demands up to 33 GHz. Due to the overall wide bandwidth and the demanding requirements for the assigned three operational bands, different filter types have been employed. Thus, the multiplexer considers the combination of filters with rectangular, evanescent combline, and conductor-loaded resonator types. The multiplexer relies on the direct branching approach, i.e., all filters are connected to a central (star-junction) waveguide branching region. This region exhibits a reduced waveguide size to suppress interference by higher order modes. For a verification of the approach, WR34 waveguide interfaces have been considered at all ports for prototype design, however, the design can be well adapted for integrated equipment solutions with associated direct interfaces. Accurate coincidence of analyzed and measured performance of the prototype demonstrates the validity of the special approach. Moreover, additional simulations are provided as an outline for terminals with specific industry demands.
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CiteScore
10.70
自引率
0.00%
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审稿时长
8 weeks
期刊最新文献
Front Cover Table of Contents Introduction to the Fall 2024 Issue IEEE Microwave Theory and Technology Society Information Over-the-Air Phase Noise Spectral Density Measurement for FMCW Radar Sensors
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