Study of the Possibility of Reducing the Attenuation Coefficient of Two-Wire Circuits

2020 IEEE International Conference on Electrical Engineering and Photonics (EExPolytech) Pub Date : 2020-10-15 DOI:10.1109/EExPolytech50912.2020.9243954

M. Bylina, S. Glagolev, A. Semenov, R. Davydov

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引用次数: 1

Abstract

Symmetrical cable lines, consisting of conductors with a circular cross-section, are used in local networks, access networks and video surveillance networks. The most widespread are symmetrical twisted-pair cables. The maximum transmission distance over such a cable is strongly limited by attenuation; therefore, it is of interest to develop new designs of cable circuits that provide a decrease in the attenuation coefficient. The main requirements for the designs being developed are to ensure the coordination of the cable circuit with the existing active equipment by maintaining the magnitude of the characteristic impedance and ensuring compatibility with the elements of detachable connectors. The fulfilment of the latter requirement restricts changing the dimensions of the cable chain. The paper analyzes the possibilities of using a new design of the symmetrical cable circuit with conductors having a D-shaped cross-section, patented by Wayne Charles Hopkinson and Trent Mitchel Hayes. It is shown that such a design makes it possible to significantly reduce the attenuation coefficient, and hence to increase the transmission distance.

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降低双线电路衰减系数可能性的研究

对称电缆线路由圆形截面导线组成，用于局域网络、接入网和视频监控网络。最普遍的是对称双绞线电缆。这种电缆的最大传输距离受到衰减的强烈限制;因此，开发能够降低衰减系数的电缆电路的新设计是很有意义的。正在开发的设计的主要要求是通过保持特性阻抗的大小和确保与可拆卸连接器元件的兼容性来确保电缆电路与现有有源设备的协调。后一种要求的满足限制了电缆链尺寸的改变。本文分析了采用一种新的对称电缆电路设计的可能性，该电路的导体具有d形截面，由韦恩·查尔斯·霍普金森和特伦特·米切尔·海斯获得专利。结果表明，这样的设计可以显著降低衰减系数，从而增加传输距离。

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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2020 IEEE International Conference on Electrical Engineering and Photonics (EExPolytech)

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