光纤背向散射效应直接应用于光纤拉曼放大器和分布式光纤拉曼温度传感器系统。
The backscattering effect of optical fiber has been applied to fiber Raman amplifier and distributed optical fiber Raman temperature sensors system.
分布式光纤温度测量系统能在整条光纤的长度上,以距离的连续函数形式传感出被测温度随光纤长度方向的变化。
The fiber optic distributed temperature sensor system can sense the change of temperature along the optical fiber by the form of continuous function of distance.
针对分布式光纤温度传感系统信号的特点,对系统的各部分PCB的设计进行分析和研究。
Each PCB part of system is analyzed and researched based on the characteristics of distributed fiber optic temperature signal.
基于自发拉曼散射的光纤分布式温度测量系统是一种真正的分布传感系统且已商品化。
So far, a truly distributed and commercialized optical fiber temperature system is based on Raman scattering.
系统利用分布式光纤光栅温度传感器对电力线路温度数据进行实时检测,然后将检测到的温度数据传送至数据处理部分。
The data acquisition sub-system USES distributed optical fiber grating temperature sensor system to measure the temperature of the cables, and transmits the data to the data processing sub-system.
系统利用分布式光纤光栅温度传感器对电力线路温度数据进行实时检测,然后将检测到的温度数据传送至数据处理部分。
The data acquisition sub-system USES distributed optical fiber grating temperature sensor system to measure the temperature of the cables, and transmits the data to the data processing sub-system.
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