Quasi-elliptic band pass filter using resonators based on coupling theory for ultra-wide band applications

IF 0.7 4区工程技术 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC Microelectronics International Pub Date : 2024-01-05 DOI:10.1108/mi-07-2023-0106

Divya Shree M., Srinivasa Rao Inabathini

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Abstract

Purpose

This paper aims to present the simulation, fabrication and testing of a novel ultra-wide band (UWB) band-pass filters (BPFs) with better transmission and rejection characteristics on a low-loss Taconic substrate and analyze using the coupled theory of resonators for UWB range covering L, S, C and X bands for radars, global positioning system (GPS) and satellite communication applications.

Design/methodology/approach

The filter is designed with a bent coupled transmission line on the top copper layer. Defected ground structures (DGSs) like complementary split ring resonators (CSRRs), V-shaped resonators, rectangular slots and quad circle slots (positioned inwards and outwards) are etched in the ground layer of the filter. The circular orientation of V-shaped resonators adds compactness when linearly placed. By arranging the quad circle slots outwards and inwards at the corner and core of the ground plane, respectively, two filters (Filters I and II) are designed, fabricated and measured. These two filters feature a quasi-elliptic response with transmission zeros (TZs) on either side of the bandpass response, making it highly selective and reflection poles (RPs), resulting in a low-loss filter response. The transmission line model and coupled line theory are implemented to analyze the proposed filters.

Findings

Two filters by placing the quad circle slots outwards (Filter I) and inwards (Filter II) were designed, fabricated and tested. The fabricated model (Filter I) provides transmission with a maximum insertion loss of 2.65 dB from 1.5 GHz to 9.2 GHz. Four TZs and five RPs are observed in the frequency response. The lower and upper stopband band width (BW) of the measured Filter I are 1.2 GHz and 5.5 GHz of upper stopband BW with rejection level greater than 10 dB, respectively. Filter II (inward quad circle slots) operates from 1.4 GHz to 9.05 GHz with 1.65 dB maximum insertion loss inside the passband with four TZs and four RPs, which, in turn, enhances the filter characteristics in terms of selectivity, flatness and stopband. Moreover, 1 GHz BW of lower and upper stopbands are observed. Thus, the fabricated filters (Filters I and II) are therefore evaluated, and the outcomes show good agreement with the electromagnetic simulation response.

Research limitations/implications

The limitation of this work is the back radiation caused by DGS, which can be eradicated by placing the filter in the cavity and retaining its performance.

Practical implications

The proposed UWB BPFs with novel resonators find their role in the UWB range covering L, S, C and X bands for radars, GPS and satellite communication applications.

Originality/value

To the best of the authors’ knowledge, for the first time, the authors develop a compact UWB BPFs (Filters I and II) with BW greater than 7.5 GHz by combining reformed coupled lines and DGS resonators (CSRRs, V-shaped resonators [modified hairpin resonators], rectangular slots and quad circle slots [inwards and outwards]) for radars, GPS and satellite communication applications.

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基于耦合理论的准椭圆形带通滤波器，用于超宽带应用

目的本文旨在介绍一种新型超宽带（UWB）带通滤波器（BPF）的模拟、制造和测试，该滤波器在低损耗的 Taconic 基材上具有更好的传输和抑制特性，并利用谐振器耦合理论分析了 UWB 范围内的 L、S、C 和 X 波段，适用于雷达、全球定位系统（GPS）和卫星通信应用。在滤波器的地层上蚀刻了缺陷地层结构（DGS），如互补分环谐振器（CSRR）、V 形谐振器、矩形槽和四圆槽（位置向内和向外）。V 型谐振器的圆形排列方式使其在线性放置时更加紧凑。通过在地平面的角部和核心部分分别向外和向内布置四圆槽，设计、制造并测量了两个滤波器（滤波器 I 和 II）。这两个滤波器具有准椭圆形响应，带通响应两侧具有传输零点（TZ），因此具有高选择性和反射极点（RP），从而实现了低损耗滤波器响应。研究结果设计、制造和测试了两个滤波器，分别将四圆槽向外放置（滤波器 I）和向内放置（滤波器 II）。制作的模型（滤波器 I）在 1.5 GHz 至 9.2 GHz 范围内的最大插入损耗为 2.65 dB。在频率响应中观察到四个 TZ 和五个 RP。滤波器 I 的下限和上限阻带宽度（BW）分别为 1.2 千兆赫和 5.5 千兆赫，上限阻带宽度的抑制电平大于 10 分贝。滤波器 II（内向四圆槽）的工作频率为 1.4 GHz 至 9.05 GHz，通带内的最大插入损耗为 1.65 dB，具有四个 TZ 和四个 RP，这反过来又增强了滤波器在选择性、平坦性和止带方面的特性。此外，还能观察到 1 GHz BW 的下限和上限止带。因此，对制作的滤波器（滤波器 I 和 II）进行了评估，结果显示与电磁仿真响应十分吻合。研究的局限性/意义这项工作的局限性在于 DGS 造成的背辐射，将滤波器置于空腔中可以消除背辐射并保持其性能。独创性/价值据作者所知，他们首次开发出了一种紧凑型 UWB BPF（滤波器 I 和 II），通过结合改良耦合线和 DGS 谐振器（CSRR、V 型谐振器[改良发夹式谐振器]、矩形槽和四圆槽[内向和外向]），其 BW 大于 7.5 GHz，适用于雷达、全球定位系统和卫星通信应用。

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来源期刊

Microelectronics International 工程技术-材料科学：综合

CiteScore

1.90

自引率

9.10%

发文量

审稿时长

>12 weeks

期刊介绍： Microelectronics International provides an authoritative, international and independent forum for the critical evaluation and dissemination of research and development, applications, processes and current practices relating to advanced packaging, micro-circuit engineering, interconnection, semiconductor technology and systems engineering. It represents a current, comprehensive and practical information tool. The Editor, Dr John Atkinson, welcomes contributions to the journal including technical papers, research papers, case studies and review papers for publication. Please view the Author Guidelines for further details. Microelectronics International comprises a multi-disciplinary study of the key technologies and related issues associated with the design, manufacture, assembly and various applications of miniaturized electronic devices and advanced packages. Among the broad range of topics covered are: • Advanced packaging • Ceramics • Chip attachment • Chip on board (COB) • Chip scale packaging • Flexible substrates • MEMS • Micro-circuit technology • Microelectronic materials • Multichip modules (MCMs) • Organic/polymer electronics • Printed electronics • Semiconductor technology • Solid state sensors • Thermal management • Thick/thin film technology • Wafer scale processing.