Development and Analysis of a Linear Model of Contact Interference in Radio Reception

2020 International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM) Pub Date : 2020-05-01 DOI:10.1109/ICIEAM48468.2020.9111881

N. Grachev

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引用次数: 2

Abstract

Among all classes of unintended electromagnetic interference, contact noise is the most unexplored. Contact interference refers to the class of interference caused by the electromagnetic field of a radio transmitter in the near field on conductive mechanical contacts with non-linear and time-varying electrical resistance or on variable contacts that are re-emitters (secondary emitters) of an electromagnetic field. The presence of such contacts forming the system is characteristic of a moving object (ship, car, tank, plane, train, etc.), on which transmitting and receiving radio electronic means (EM) operate. During the operation of the transmitter, contact interference affects the receptor mounted on the same moving object, and, as a rule, this influence is greater, the greater the speed of the object, which indicates a direct dependence of these interference on vibrations and mechanical shocks that affect the change in contact density. The paper presents the results of theoretical studies of the processes of formation and propagation of contact radio interference using an example of a linear model of the formation of contact radio interference.

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无线电接收中接触干扰线性模型的建立与分析

在所有类型的无意电磁干扰中，接触噪声是最未被探索的。接触干扰是指无线电发射机电磁场在近场对具有非线性时变电阻的导电机械触点或作为电磁场再发射体(二次发射体)的可变触点所造成的一类干扰。这种触点的存在构成了系统，这是移动物体(船、汽车、坦克、飞机、火车等)的特征，在这些物体上发射和接收无线电电子设备(EM)。在发射器的工作过程中，接触干扰会影响安装在同一运动物体上的接收器，并且通常，物体的速度越大，这种影响就越大，这表明这些干扰直接依赖于影响接触密度变化的振动和机械冲击。本文以接触无线电干扰形成的线性模型为例，介绍了接触无线电干扰形成和传播过程的理论研究结果。

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 International Conference on Industrial Engineering, Applications and Manufacturing (ICIEAM)

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