Rigorous Design of Input-Reflectionless Filter With Chebyshev Response and Exact Approach to Increase Reflectionless Range

IF 4.5 1区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Microwave Theory and Techniques Pub Date : 2021-07-27 DOI:10.1109/TMTT.2021.3098530

Juseop Lee;Jongheun Lee;Nicolas Scott Barker

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引用次数: 11

Abstract

This article presents a rigorous design method for a one-port-reflectionless filter with a Chebyshev response. In particular, we, for the first time, present inverter-coupled resonator filter topologies capable of having a Chebyshev response with zero reflection at all frequencies in theory. This work demonstrates a systematic approach for filter synthesis to find the normalized coupling (inverter) values without employing optimization methods or heuristic approaches. In addition, it provides closed-form design formulas in terms of a target frequency for the design of a one-port-reflectionless filter of coupled-line structure. We also present an exact approach to increase the reflectionless range of a distributed-element filter. Distributed-element bandpass filter structures formulated by this work are capable of producing a predefined canonical transmission response and a reflectionless feature over the entire frequency range at the same time, which has never been reported up to date. The presented topologies, synthesis results, and design methods have been applied to the design of second- and third-order filters for demonstration.

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具有切比雪夫响应的输入无反射滤波器的严格设计和提高无反射范围的精确方法

本文提出了一种具有切比雪夫响应的单端口无反射滤波器的严格设计方法。特别是，我们首次在理论上提出了能够在所有频率上具有零反射的切比雪夫响应的逆变耦合谐振器滤波器拓扑。这项工作展示了一种系统的方法，用于滤波器合成，以找到归一化耦合(逆变器)值，而不使用优化方法或启发式方法。此外，还为耦合线结构的单端口无反射滤波器的设计提供了以目标频率为参数的封闭式设计公式。我们还提出了一种精确的方法来增加分布式元件滤波器的无反射范围。本研究提出的分布式元件带通滤波器结构能够同时在整个频率范围内产生预定义的规范传输响应和无反射特性，这是迄今为止从未报道过的。所提出的拓扑结构、合成结果和设计方法已应用于二阶和三阶滤波器的设计以进行演示。

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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来源期刊

IEEE Transactions on Microwave Theory and Techniques 工程技术-工程：电子与电气

CiteScore

8.60

自引率

18.60%

发文量

486

审稿时长

6 months

期刊介绍： The IEEE Transactions on Microwave Theory and Techniques focuses on that part of engineering and theory associated with microwave/millimeter-wave components, devices, circuits, and systems involving the generation, modulation, demodulation, control, transmission, and detection of microwave signals. This includes scientific, technical, and industrial, activities. Microwave theory and techniques relates to electromagnetic waves usually in the frequency region between a few MHz and a THz; other spectral regions and wave types are included within the scope of the Society whenever basic microwave theory and techniques can yield useful results. Generally, this occurs in the theory of wave propagation in structures with dimensions comparable to a wavelength, and in the related techniques for analysis and design.