新型单级吸收共模滤波器（A-CMFs）单元与三明治匹配组件

IF 2.5 3区计算机科学 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC

IEEE Transactions on Electromagnetic Compatibility Pub Date : 2025-06-02 DOI:10.1109/TEMC.2025.3570962

Yi-Hao Ma;Cheng-Pan Huang;Da-Wei Wang;Shuai Zhang;Wen-Sheng Zhao

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引用次数: 0

摘要

提出了一种新型的夹芯匹配单级吸收共模滤波器（a - cmf）单元。与传统单级A-CMFs吸收波段单一且狭窄的特点相比，采用该单级单元可以实现高性能的双向A-CMFs。首次研制了双频二阶单级A-CMFs。在双频a - cmf的设计中，制作了样机并进行了测试，实验结果表明，所研制的双频a - cmf实现了1.32 ~ 1.66 GHz和2.88 ~ 3.10 GHz两个吸收波段。为了进一步增加吸收波段，将设计的双频单级a - cmf与额外的吸收级级级联，开发了带增强型a - cmf。在二阶单级a - cmf的设计中，提出了一种双层过孔连接的非对称共面带来实现低特性阻抗传输线。该样机在2.20 ~ 2.82 GHz范围内实现了95%的吸收比。

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Novel Single-Stage Absorptive Common-Mode Filters (A-CMFs) Unit With Sandwiched Matching Components

In this article, a novel single-stage absorptive common-mode filter (A-CMF) unit with sandwiched matching components is proposed. Compared with traditional single-stage A-CMFs whose absorption band is usually single and narrow, high-performance bidirectional A-CMFs can be achieved by using the proposed single-stage unit. For the first time, dual-band and second-order single-stage A-CMFs are developed. In the design of dual-band A-CMF, a prototype is fabricated and tested, and the experimental results demonstrate that the developed dual-band A-CMF achieves two absorption bands (1.32–1.66 GHz and 2.88–3.10 GHz). To further increase the absorption band, a band-enhanced A-CMF is developed by cascading the designed dual-band single-stage A-CMF with extra absorption stages. In the design of second-order single-stage A-CMF, a double-layer vias connected asymmetrical coplanar strip is proposed to realize a low characteristic impedance transmission line. The fabricated prototype achieves a 95% absorption ratio from 2.20 to 2.82 GHz.

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来源期刊

IEEE Transactions on Electromagnetic Compatibility 工程技术-电信学

CiteScore

4.80

自引率

19.00%

发文量

235

审稿时长

2.3 months

期刊介绍： IEEE Transactions on Electromagnetic Compatibility publishes original and significant contributions related to all disciplines of electromagnetic compatibility (EMC) and relevant methods to predict, assess and prevent electromagnetic interference (EMI) and increase device/product immunity. The scope of the publication includes, but is not limited to Electromagnetic Environments; Interference Control; EMC and EMI Modeling; High Power Electromagnetics; EMC Standards, Methods of EMC Measurements; Computational Electromagnetics and Signal and Power Integrity, as applied or directly related to Electromagnetic Compatibility problems; Transmission Lines; Electrostatic Discharge and Lightning Effects; EMC in Wireless and Optical Technologies; EMC in Printed Circuit Board and System Design.