Filter cable design with defected conductor transmission structures

Han Yunan, Cuilian Jiang, Shuangqing Xiong, Zhaohan Liu
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Abstract

Electrical cables, as the industry’s blood vessels and nervous system, require evolving distributed filtering for complex electromagnetic environment adaptability. This article introduces a filter cable design featuring an insulated cylinder coated with a defected conductor transmission structure (DCTS). The DCTS, with a well-designed etched pattern, functions as a boundary condition for transmitting specific frequency electromagnetic waves, similar to a lumped filter circuit. To validate this method, a low-pass filter cable is proposed with six-slot-ring defected structures, utilizing polytetrafluoroethylene as the inner dielectric, encased within a flexible printed circuit board (FPCB)-manufactured DCTS. The proposed cable, with precise dimensions (2.4 mm diameter, 340 mm length), demonstrates minimal insertion loss ( < 0.38 dB below 6 GHz) in the passband and rejection exceeding 23 dB at 7.7-25 GHz in the stopband. Further enhancements achieve attenuation exceeding 50 dB in the stopband (7.1 GHz to 20 GHz). Compared to traditional cables, this filter cable addresses electromagnetic compatibility (EMC) by cutting off the interference coupling path. Yunan Han et al. present a filter cable design which can apply filtering throughout the cable’s length. The defected conductor transmission structures serve as a boundary condition for transmitted waves to achieve similar performance to a lumped filter circuit.

Abstract Image

带缺陷导体传输结构的滤波电缆设计
电缆作为工业的血管和神经系统,需要不断发展的分布式滤波,以适应复杂的电磁环境。本文介绍了一种滤波电缆设计,其特点是在绝缘圆筒上涂覆有缺陷导体传输结构(DCTS)。DCTS 具有精心设计的蚀刻图案,可作为传输特定频率电磁波的边界条件,与块状滤波电路类似。为了验证这种方法,我们提出了一种具有六槽环形缺陷结构的低通滤波器电缆,利用聚四氟乙烯作为内电介质,封装在柔性印刷电路板(FPCB)制造的 DCTS 内。拟议的电缆尺寸精确(直径 2.4 毫米,长度 340 毫米),在通带内的插入损耗极小(6 千兆赫以下为 0.38 分贝),在 7.7-25 千兆赫的阻带内抑制超过 23 分贝。进一步增强后,在阻带(7.1 GHz 至 20 GHz)的衰减超过 50 dB。与传统电缆相比,这种滤波电缆通过切断干扰耦合路径,解决了电磁兼容性(EMC)问题。Yunan Han 等人提出了一种滤波电缆设计,可在整个电缆长度范围内进行滤波。有缺陷的导体传输结构可作为传输波的边界条件,从而实现与块状滤波电路类似的性能。
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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