Design Technique for Integration of Manifold Multiplexers Considering Constraints on Inter-Channel Spacings

A. Cordon, I. Arregui, I. Arnedo, F. Tcberio, C. Arnold, M. Laso, J. Lorente
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引用次数: 2

Abstract

An innovative and industrially relevant design technique to improve the integration of satellite output multiplexers (OMUXes) is proposed. The manifold dimensions of classical manifold OMUXes are typically obtained to accomplish the frequency specifications regardless of any constraints on manifold dimensions. However, it may be desirable to achieve a certain fixed inter-channel spacing e.g. in order to easily accommodate a fixed mounting point pattern or to obtain a more generic mechanical design approach. A design procedure is proposed in this paper to replace the uniform waveguides of a pre-designed OMUX by stepped waveguides sections, making it viable to adjust the footprint to the required dimensions without compromising the frequency response and avoiding any filter readjustment. A 3-channel OMUX prototype has been designed and simulated (both with CST MWS and FEST3D for comparison purposes) as an example to validate the feasibility of the proposed technique.
考虑信道间距约束的流形多路复用器集成设计技术
提出了一种创新的工业相关设计技术,以提高卫星输出多路复用器的集成度。经典流形omux的流形尺寸通常是在不受流形尺寸限制的情况下实现频率规格的。然而,可能需要实现一定的固定通道间间距,例如,为了方便地容纳固定安装点图案或获得更通用的机械设计方法。本文提出了一种设计方法,用阶梯波导部分取代预先设计的OMUX的均匀波导,使其能够在不影响频率响应和避免任何滤波器重新调整的情况下将占地面积调整到所需的尺寸。设计并模拟了一个3通道OMUX原型(使用CST MWS和FEST3D进行比较)作为示例,以验证所提出技术的可行性。
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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