通信光缆

本地网通信光缆线路的工程设计及实例分析光缆在送电线路上的架设

Project design of communication optical fiber cable lines of local network and living example analysis

高质量的通信光缆线路工程设计要求设计人员熟练掌握各种标准、规范，具有丰富的专业知识并根据现场环境作出正确的选择，同时绘制出高质量的工程图纸。

The project design of high - quality communication optical fiber cable lines needs the designers to master all the standards skillfully , have rich professional knowledge , make the correct choices according to the worksite and meanwhile draw up high - quality project drawings .

基于GIS的园区通信光缆管理可视化研究

Research on Visualization for campus optical cable management based on GIS

GIS在通信光缆故障定位中的应用

The Application of GIS in the Optical Cable Fault Location

基于GIS的通信光缆故障定位及保障系统

The Fault Positioning and Safeguard System of Optical Cable for Communications Based on GIS

FRP外加强中心管ADSS通信光缆热塑成型装置的设计

Design of thermoplastics forming device for FRP outer strength central bundle tube ADSS cable

研究了全介质自承式（ADSS）通信光缆处于高电场强度区域时，高压输电线路铁塔附近的电场分布。

The distribution of electric field near the high-voltage power towers is studied .

该系统采用电力电磁场与力场的耦合计算方法仿真高压输电线路与自承式通信光缆（ADSS）同塔并架工程。

We use calculation of Electric Magnetic Field Coupling in Force Field to emulate the system .

110kV及以上电力线对通信光缆的影响分析

Influence to Fiber Optic Communication Cable by Power Lines operated on and above 110 kV

架空地线复合光缆（OPGW）兼输电线路架空地线和通信光缆功能于一体，正日益显示其优越性。

The overhead OPGW , being of functions of the overhead ground wire and communication optical cable for transmission lines has demonstrated its advantages day by day .

该算法所得结果可用于预测带电作业时的操作方式和防护措施，以及用于同杆架设ADSS通信光缆时光缆的定位。

The results can be used to predicate the safeguarding method during operations on the tower and the position where the ADSS optical cable is set on the power tower .

通过租用通信光缆纤心，搭建SDH与数字电视传输平台，实现了市到县广播电视联网，带宽达2.5Gbps。

The SDH and digital TV transmission platform of Dingxi City was established based on hired communication optical fiber to interconnect BC & TV systems between the city ′ s urban district and countries with transmission capability of 2.5 Gbps .

公路边沟中通信光缆沟的爆破开挖

Blasting Excavation of Furrow for Sound Optical Cable in Highway Side Ditch

通信光缆案例分析及安全管理措施探讨

Analysis of optical cable damage cases and discussion of countermeasures

我国通信光缆的技术发展趋势和市场前景

Technical trend and market prospect of communication fiber optic cable in China

通信光缆中断故障自动诊断系统的实现

The Realization of Auto - diagnosing System of Communication Optical Cable 's Abort

长输管道与通信光缆的同沟敷设

Laying of optic fibre communication cable with long distance pipeline in one ditch

海底通信光缆故障的定位与维修

Fault Location and Repair of Submarine Optical Communication Cables

地电位升对埋地通信光缆的危险影响及防护

Danger Effects and Protection of Buried Optical Fiber Cables

地下通信光缆工程的质量控制策略探讨

Discuss Quality Control on Strategy in Communications Engineering of Subterranean Optic Fiber Cable

塑料多孔管主要用于埋地通信光缆和电缆的穿导、隔离和保护。

Plastic honeycomb pipes are used to protect underground communication cables and optical cables .

通信光缆施工技术新探

New Construction Technique of Communication Optical Cable

双波长特性在通信光缆维护中的应用

Application of the Double Wavelength Characteristic of SMFs in the Maintenance of Fiber Optic Cables

光纤填充油膏是通信光缆的重要组成元件之一。

The filling gel to optical fiber is one of the important components of communication cable .

故障点的精确定位是海底通信光缆迅速修复的关键。

The accurate fault location is the key process for repair of submarine optical communication cables .

另外军用通信光缆还有可能成为敌国窃听和攻击的目标。

Moreover , military communication cables may be distinct targets of wiretap and attacks from the enemy states .

通信光缆的雷击形式与防雷方法微波通信站电缆转移阻抗及引入的干扰电压

Experimental Research of Transfer Impedance of Microwave Communication Cable and Interference Voltage When Tower is Struck by Lightning

施工结果表明：同沟敷设与另行直埋通信光缆相比，可节省40%的资金，施工质量达到了设计要求。

It shows that 40 % costs could be saved by one ditch method comparing with separate laying method .

通信光缆线路施工与测试技术分析本文就上述问题在通信光缆线路工程设计中的具体应用进行了论述。

Construction Testing Analyse Technique for Telecommunication Optical Fiber Cable Lines This paper expounds the specific application of the above .

通信光缆拉伸应变分布测量对于保证光纤通信线路的长期可靠性具有十分重要的意义。

The measurement of tensile strain distribution of optical fiber is very necessary to guarantee the long-term reliability of optical cable .