基于光纤布拉格光栅(FBG)的应力传感特性,提出了一种湿度传感方法,给出了湿度传感器的设计和实验测量系统。
This paper proposes a new humidity sensing method, together with the design of humidity sensor and the measuring system based on Fiber Bragg Grating(FBG)strain sensing.
采用光纤光栅作为温度传感器,提出了测量高压开关柜内接头温度的在线监测系统。
By the fiber grating as temperature sensor, the on-line monitoring system of temperature for the contact inside the high voltage switchgear was put forward.
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.
设计并制作了光纤光栅涡街流量传感系统,包括传感器封装法兰、等强度悬臂梁、涡街发生体等关键传感单元。
We designed and produced a fiber grating vortex Flow sensor system, including sensor package flange, uniform intensity cantilever, vortex generating body et al and other critical sensing units.
本课题针对实际需求,研究采用本质安全、耐腐蚀的光纤光栅传感器实现新型的流量计量系统。
Focusing on meeting the actual demand, this research made use of fiber grating sensor that is corrosion-resistant and safe intrinsically to achieve new flow measurement system.
光纤光栅传感系统一般包括光源、传感器(光纤光栅)、光路解调部分、数据采集分析终端等部分。
The fiber grating sensing system consists of four parts, Broadband Light-source, FBG/LPG based sensor, Signal demodulation section and Signal process section.
介绍了光纤光栅应变传感器,并对采集处理卡在监测系统中的应用进行了详细说明。
The new fiber granting sensor is introduced, and application of the card to structural states monitoring system is illustrated in detail.
利用该过耦合器组成的检测系统对光纤光栅传感器进行解调,得到了较好的响应。
Optic fiber grating sensor demodulation using over coupled coupler experiment is carried on and good response is obtained.
GM8037高分辨率光纤光栅传感器解调仪是一个PC机控制的、大功率,高精度、大动态范围的光纤布拉格光栅传感器解调系统及高精度的光谱分析系统。
The GM8037 high resolution fiber grating sensor interrogating system is a PC-based, compact sized, high accurate, big dynamic range FBG sensors interrogating system.
本文首先介绍了光纤光栅的传感原理,并详细分析了光纤光栅应变传感系统的基本组成以及工作原理,根据工程应用的经验得出了光纤光栅传感器最容易出现性能蜕化现象。
Basic composition and principle of the FBG strain sensing system were analyzed in detail. According to engineering experience we obtained that FBG sensor was most likely degeneration.
本文首先介绍了光纤光栅的传感原理,并详细分析了光纤光栅应变传感系统的基本组成以及工作原理,根据工程应用的经验得出了光纤光栅传感器最容易出现性能蜕化现象。
Basic composition and principle of the FBG strain sensing system were analyzed in detail. According to engineering experience we obtained that FBG sensor was most likely degeneration.
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