摘要
5G通信技术在装设备储存场所和装设备上的广泛应用,将使电火工品暴露在复杂的5G通信电磁环境中。当桥丝式电火工品处于5G通信电磁环境中时,其引线可等效为接收天线,从电磁场中接收电磁能量,桥丝上会产生感应电流。为分析5G通信电磁环境对桥丝式电火工品的影响,选取一典型5G微基站为辐射源,对处于该辐射场中电火工品的感应电流进行了仿真,并分析了电火工品的物理结构特性与感应电流之间的关系。
The wide application of 5G communication technology in storage places and equipment will expose electric initiat⁃ing explosive devices(EEDs)to the complex 5G communication electromagnetic environment.When the bridge wire type EED is in the 5G communication electromagnetic environment,its lead wire can be equivalent to a receiving antenna,receiving electromagnet⁃ic energy from the electromagnetic field,and generating induced current on the bridge wire.In order to analyze the influence of 5G communication electromagnetic environment on bridge wire type EEDs,a typical 5G micro base station is selected as the radiation source,and the induced current of EED in the radiation field is simulated,and the relationship between the physical structure char⁃acteristics of EED and the induced current is analyzed.
作者
路翠华
李福强
张旭
陈则照
LU Cuihua;LI Fuqiang;ZHANG Xu;CHEN Zezhao(Naval Aviation University,Yantai 264001;No.91427 Troops of PLA,Sanya 572000)
出处
《舰船电子工程》
2023年第10期106-109,179,共5页
Ship Electronic Engineering
关键词
5G通信
电磁环境
电火工品
感应电流
5G communication
electromagnetic environment
electric initiating explosive device
induced current
