摘要
以STM32单片机为核心设计一种光纤传感气体检测系统。当调制激光进入光声池后通过光声效应得到声信号,所得信号由设置在光声池上的微音器检测经后置的解调电路完成检测。利用中心波长锁定来减小测量所得误差,利用二次谐波来消除气体背景噪声,从而进一步提高系统信噪比。该气体传感器的性能通过对水汽气体进行检测得以验证,此装置对水汽的拟合度高达0.9992,体现出良好的检测准确度。
Designs an optical fiber sensing gas detection system based on STM32 microcontroller. When the modulated laser enters the photoacoustic pool, the sound signal is obtained through the photoacoustic effect. The center wavelength lock is used to reduce the measurement error, and the second harmonic is used to eliminate the background noise of the gas. The performance of the gas sensor is verified by the detection of water vapor gas. The fitting degree of the device to water vapor is as high as 0.9992, which reflects a good detection accuracy.
作者
汤龙飞
于会山
王宗良
TANG Long-fei;YU Hui-shan;WANG Zong-liang(School of Physics Science and Information Technology, Liaocheng University, Liaocheng 252059)
出处
《现代计算机》
2019年第17期94-96,100,共4页
Modern Computer
关键词
光声光谱
单片机
二次谐波
中心波长锁定
Photoacoustic Spectrometry
Single Chip
Second Harmonics
Center Wavelength Lock
