Critical aspects of electromagnetic compatibility on board ships

Q4 Engineering

Scientific Bulletin of Naval Academy Pub Date : 2023-06-15 DOI:10.21279/1454-864x-23-i1-002

V DOBREF

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Abstract

The electromagnetic environment on board a military ship is a bounded space with disturbance sources and receivers. It is defined by the maximum disturbance levels in each interior compartment and on the ship's decks. The electromagnetic environment on board a ship is extremely complex, as it depends to a large extent on the density of equipment on board, the characteristics of the equipment installed (frequency bands, power, modulation types, etc.), the measures to prevent electromagnetic radiation pollution taken by designing the ship in such a way that the electromagnetic field strength inside the ship is as low as possible, with reduced risks to the normal operation of the equipment on board and to the personnel on board. The installation of radars in the on-board electromagnetic environment requires an analysis of the electromagnetic compatibility standards that apply to them. To prevent electromagnetic interference in such systems involves describing the composition of the environment and the interaction between different components. The paper presents a risk-based characterisation of the on-board electromagnetic environment for electromagnetic compatibility analysis.

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船上电磁兼容性的关键方面

舰船电磁环境是一个有界空间，存在干扰源和接收机。它是由每个内部隔间和船舶甲板上的最大扰动水平定义的。船舶上的电磁环境极其复杂，在很大程度上取决于船上设备的密度、所安装设备的特性(频段、功率、调制类型等)、船舶设计中采取的防止电磁辐射污染的措施，使船内的电磁场强度尽可能低。降低了船上设备和船上人员正常操作的风险。在车载电磁环境中安装雷达，需要对适用于雷达的电磁兼容标准进行分析。为了防止这种系统中的电磁干扰，需要描述环境的组成和不同组件之间的相互作用。本文提出了一种基于风险的机载电磁环境表征方法，用于电磁兼容性分析。

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

Scientific Bulletin of Naval Academy Engineering-Ocean Engineering

自引率

0.00%

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审稿时长

8 weeks