Miniaturization of S-Band Monopulse Antenna Feeding Network Using Substrate-Integrated-Waveguide

2023 International Conference for Advancement in Technology (ICONAT) Pub Date : 2023-01-24 DOI:10.1109/ICONAT57137.2023.10080850

Shita Herfiah, N. Rahayu, A. D. Prasetyo, A. Munir

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Abstract

In monopulse antenna systems, the feeding network plays a critical role since it provides the sum and difference beams. A hybrid waveguide is a type of four-ports device widely used as a feeding network to produce sum and diff beams. This paper deals with the miniaturization of feeding network monopulse antenna using substrate integrated waveguide (SIW). The proposed feeding network which is developed based on SIW structure will be compared with the conventional one, which has a bulky structure, to determine the miniaturization ratio. Parameters of the feeding network such as physical dimension, return loss, insertion loss, isolation, and phase difference will be analyzed to determine the performance of proposed feeding network after miniaturization. The proposed feeding network is deployed on a double side 1.524 mm thick Rogers RO-4003C dielectric substrate. The characterization results show that the proposed feeding network performs well in each port with the phase difference of 180°. In comparison to the conventional one, the use of SIW structure is ultra-compact and implementable in finite space.

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基于基片集成波导的s波段单脉冲天线馈电网络小型化

在单脉冲天线系统中，馈电网络提供和差波束，起着至关重要的作用。混合波导是一种四端口器件，广泛用于产生和差光束的馈电网络。研究了基于衬底集成波导的馈电网络单脉冲天线的小型化问题。将基于SIW结构开发的进料网络与结构庞大的传统进料网络进行比较，确定其微型化比例。将分析馈电网络的物理尺寸、回波损耗、插入损耗、隔离度和相位差等参数，以确定拟建馈电网络小型化后的性能。所提出的馈电网络部署在双面1.524 mm厚的Rogers RO-4003C介质基板上。表征结果表明，所提出的馈电网络在各端口均表现良好，相位差为180°。与传统结构相比，SIW结构具有超紧凑、可在有限空间内实现的特点。

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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2023 International Conference for Advancement in Technology (ICONAT)

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