一种基于开槽微带交叉结的新型威尔金森功率分配器

Abdelhamid M. H. Nasr, A. Safwat
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引用次数: 6

摘要

本文提出了一种新颖的微带威尔金森功率分配器,该分配器具有奇偶模式分离路径。所提出的分压器具有单个四分之一波长阻抗变压器部分和在横向上减小的尺寸。这是通过在添加隔离电阻的微带接地平面上蚀刻纵向槽来实现的。为了开发该分频器的设计程序,还提出了开槽微带交叉结的等效电路模型。通过实现一个双向带通滤波器对模型进行了验证。所提出的分频器具有典型的威尔金森功率分频器性能,在72%分数带宽(15 dB回波损耗)内的插入损耗为0.2 dB,在工作频率下的隔离度为- 24 dB。同时,与同类产品相比,它具有横向尺寸短的优点。理论预测已通过电磁模拟和测量得到验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A novel Wilkinson power divider based on slotted microstrip cross — Junction
A novel microstrip Wilkinson power divider with separate paths for the even and odd modes is presented in this paper. The proposed divider has a single quarter wavelength impedance transformer section and a reduced dimension in the transverse direction. This is achieved by etching a longitudinal slot in the ground plane of the microstrip where the isolation resistor is added. To develop a design procedure for the proposed divider, an equivalent circuit model for the slotted microstrip cross junction is also proposed. The model is validated by implementing a two-way band-pass filter. The proposed divider has a typical Wilkinson power divider performance of 0.2 dB insertion loss within 72% fractional bandwidth (15 dB return loss) and −24 dB isolation at the operating frequency. Meanwhile, it has the advantage of short lateral dimensions compared to its counter-parts. Theoretical predictions have been verified by EM simulations and measurements.
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