Compact and low-loss IPD bandpass filter using 3D glass-based redistribution layer technology

IF 1.6 4区工程技术 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Numerical Modelling-Electronic Networks Devices and Fields Pub Date : 2024-09-17 DOI:10.1002/jnm.3292

HangXing Li, Yazi Cao, Peng Zhao, Gaofeng Wang

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Abstract

A low-loss miniaturized bandpass filter is presented using 3D glass-based RDL packaging technology. A new topology consisting of one modified Pi-section and one modified T-section is introduced to generate three transmission zeros which can achieve the high out-of-band rejection. A combination of 2D planar inductors and high-Q 3D inductors is used to achieve low insertion loss and minimize the filter size. In addition, one grounded resonator at input terminal is introduced to generate an extra transmission zero in the low end. The proposed bandpass filter covering 3.3–4.2 GHz is fabricated with a compact size of 1.6 mm × 0.8 mm × 0.25 mm. It exhibits an insertion loss of less than 1.0 dB at a center frequency of 3.75GHz and a return loss of better than 14 dB. The proposed design has a 3 dB fractional bandwidth of 37.6%. Its out-of-band rejection is better than 20 dB at the low frequency band from DC to 2.0 GHz and better than 19 dB at the high frequency band from 5.0 to 9.0 GHz. The simulated and measured results of the proposed BPF are in reasonably good agreement.

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采用 3D 玻璃基再分布层技术的紧凑型低损耗 IPD 带通滤波器

本文介绍了一种采用三维玻璃基 RDL 封装技术的低损耗微型带通滤波器。它采用了一种新的拓扑结构，包括一个改进型 Pi- 断面和一个改进型 T-断面，以产生三个传输零点，从而实现高带外抑制。二维平面电感器和高 Q 值三维电感器相结合，实现了低插入损耗和最小滤波器尺寸。此外，还在输入端引入了一个接地谐振器，以在低端产生额外的传输零点。所提出的带通滤波器频率覆盖 3.3-4.2 GHz，尺寸仅为 1.6 mm × 0.8 mm × 0.25 mm。在中心频率为 3.75 GHz 时，它的插入损耗小于 1.0 dB，回波损耗优于 14 dB。拟议设计的 3 dB 分数带宽为 37.6%。其带外抑制在直流至 2.0 GHz 的低频段优于 20 dB，在 5.0 至 9.0 GHz 的高频段优于 19 dB。拟议 BPF 的模拟和测量结果相当吻合。

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

International Journal of Numerical Modelling-Electronic Networks Devices and Fields 工程技术-工程：电子与电气

CiteScore

4.60

自引率

6.20%

发文量

101

审稿时长

>12 weeks

期刊介绍： Prediction through modelling forms the basis of engineering design. The computational power at the fingertips of the professional engineer is increasing enormously and techniques for computer simulation are changing rapidly. Engineers need models which relate to their design area and which are adaptable to new design concepts. They also need efficient and friendly ways of presenting, viewing and transmitting the data associated with their models. The International Journal of Numerical Modelling: Electronic Networks, Devices and Fields provides a communication vehicle for numerical modelling methods and data preparation methods associated with electrical and electronic circuits and fields. It concentrates on numerical modelling rather than abstract numerical mathematics. Contributions on numerical modelling will cover the entire subject of electrical and electronic engineering. They will range from electrical distribution networks to integrated circuits on VLSI design, and from static electric and magnetic fields through microwaves to optical design. They will also include the use of electrical networks as a modelling medium.