使用高度微型化穹顶形谐振器的单片集成 3D 打印带通滤波器

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE journal of microwaves Pub Date : 2024-07-03 DOI:10.1109/JMW.2024.3414130

Kunchen Zhao;Christian Elmiger;Dimitra Psychogiou

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引用次数: 0

摘要

本文介绍了一类高度微型化的 "圆顶 "形三维带通滤波器（BPF）。通过使用：i) 比传统球形谐振器小得多的电容加载半球形谐振器；ii) 基于立体光刻设备 (SLA) 的三维打印技术，促进单片集成；iii) 垂直堆叠谐振器，实现了尺寸的减小。本文提供了一种全面的设计方法，并将其应用于实现高阶 BPF。此外，还提出了一种可实现宽带带外抑制的射频激励方案。为了验证概念，我们设计、制造并测试了工作频率为 5.8 GHz 的二阶和三阶 BPF 原型以及紧凑型垂直叠加二阶 BPF。测量结果显示了以下特性：二阶 BPF：中心频率 fc = 5.8 GHz，分数带宽 (FBW) = 5.5%，有效品质因数 (Qeff) = 890，20 dB 上阻带抑制高达 10.14 GHz（1.7.GHz）。3fc）；三阶 BPF：fc = 5.8 GHz，FBW = 6.5%，Qeff = 1,230，20 dB 上止带抑制高达 10.1 GHz（1.74fc）；垂直叠加二阶 BPF：fc = 5.9 GHz，FBW = 10.0%，Qeff = 720，20 dB 上止带抑制高达 8.9 GHz（1.5fc）

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Monolithically-Integrated 3D Printed Bandpass Filters Using Highly-Miniaturized Dome-Shaped Resonators

A new class of highly-miniaturized “dome”-shaped 3D bandpass filters (BPFs) are presented. Size reduction is achieved by using: i) capacitively-loaded hemispherical resonators that are significantly smaller than a conventional spherical resonator, ii) stereolithography apparatus (SLA)-based 3D printing facilitating monolithic integration, and by iii) vertically-stacked resonators. A comprehensive design methodology is provided and applied to the realization of high order BPFs. An RF excitation scheme allowing for wideband out-of-band suppression is also proposed. For proof-of-concept validation purposes, a second- and a third-order BPF prototypes operating at 5.8 GHz, and a compact vertically-stacked second-order BPF were designed, manufactured, and tested. The measurement results exhibit the following characteristics: second-order BPF: center frequency f _c = 5.8 GHz, fractional bandwidth (FBW) = 5.5%, effective quality factor ( Q _eff ) = 890, 20 dB upper stopband suppression up to 10.14 GHz (1.7.3 f _c ); third-order BPF: f _c = 5.8 GHz, FBW = 6.5%, Q _eff = 1,230, and 20 dB upper stopband suppression up to 10.1 GHz (1.74 f _c ); vertically-stacked second-order BPF: f _c = 5.9 GHz, FBW = 10.0%, Q _eff = 720, and 20 dB upper stopband suppression up to 8.9 GHz (1.5 f _c )

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来源期刊

IEEE journal of microwaves

CiteScore

10.70

自引率

0.00%

发文量

审稿时长

8 weeks