A high precision cascade synthesis technique for real frequency matching involving Brune and Darlington Type-C sections

Proceedings of 2014 Mediterranean Microwave Symposium (MMS2014) Pub Date : 2014-12-01 DOI:10.1109/MMS.2014.7088930

B. Yarman, A. Aksen, R. Kopru, Ç. Aydin, Cagdas Atilla

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引用次数: 2

Abstract

In this work, we introduce a high precision cascade synthesis technique for lossless matching networks involving Brune and Darlington Type-C sections. In the present manuscript, we generalized our previously introduced high precision LC-ladder synthesis algorithm to include the extraction of finite real frequency and right half plane (RHP) transmission zeros of an impedance function as Brune and Darlington Type-C sections respectively. In the modified synthesis algorithm, after each finite frequency and RHP transmission zero extraction, remaining immittance function is corrected using a parametric approach. It is shown that proposed high precision algorithm can synthesize immittance functions of up to 40 reactive elements with accumulated relative error in the order of 10-1. The modified high precision synthesis package is developed in MatLab environment and it is integrated with the real frequency techniques to design high complexity matching networks over broad bands. An illustrative example is presented to exhibit the usage of the proposed high precision synthesis algorithm.

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一种涉及布鲁恩和达灵顿c型段的高精度级联合成技术

在这项工作中，我们介绍了一种高精度级联合成技术，用于涉及Brune和Darlington Type-C段的无损匹配网络。在本文中，我们推广了之前介绍的高精度lc -梯合成算法，以包括阻抗函数的有限实频率和右半平面(RHP)传输零点分别作为Brune和Darlington Type-C截面的提取。在改进的综合算法中，在每次有限频率和RHP传输零提取后，使用参数法对剩余的阻抗函数进行校正。结果表明，该算法可合成多达40个反应元件的阻抗函数，累计相对误差在10-1量级。在MatLab环境下开发了改进的高精度综合包，并将其与实频技术相结合，实现了宽带高复杂度匹配网络的设计。最后通过一个实例说明了所提出的高精度综合算法的应用。

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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Proceedings of 2014 Mediterranean Microwave Symposium (MMS2014)

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