本文研究的对象是光谱吸收型光纤气体传感器。
In this thesis, we have studied spectrum absorptive optical fiber gas sensors.
研究了差分吸收式光谱吸收型光纤气体传感器。
An easy realizable spectrum absorption type optic fiber gas sensor was studied and discussed.
提出了一种大气监测光纤气体传感器灵敏度的自动设定方法。
A way of automatic adjusting the sensitivity of the optical fiber sensor is proposed in atmospheric monitor.
本课题的研究对其它光纤气体传感器检测系统的研究具有参考价值。
So the system has better flexibility. The study in fiber oxygen sensor refers to the other gas sensor.
本课题所做的工作,为以后高性能光纤气体传感器的研究打下了一定的基础,提供了积极的参考价值。
The work of this subject has Played a solid foundation and Provided a valuable reference for the research of high-Performance Optical Fiber Gas Sensor in the future.
分析了吸收式气体传感器的工作数学模型与光电检测电路的结构特点,探讨了提高吸收式光纤气体传感器分辨率的方法。
According to the mathematic model of gas sensor and the photoelectric detection circuit structure characteristic, it discusses the methods of improving resolution in detail.
介绍了应用两种光纤传感器对气体开关放电进行诊断的方法。
The diagnosis method of discharge characteristics of gas switches through using two types of fiber sensor is introduced in this paper.
基于甲烷气体的近红外吸收光谱,研究了一种高灵敏度光谱吸收型光纤甲烷气体传感器。
Based on the near infrared spectral absorption of methane, a system using absorption type optic fiber for high sensitivity methane detection is demonstrated.
基于甲烷气体的近红外吸收光谱,研究了一种高灵敏度光谱吸收型光纤甲烷气体传感器。
Based on the near infrared spectral absorption of methane, a system using absorption type optic fiber for high sensitivity methane detection is demonstrated.
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