DFB激光温度控制系统的设计与仿真试验

Qing-hua Guo
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引用次数: 0

摘要

为了保证激光甲烷传感器在煤矿等野外环境下的测量精度和长期工作稳定性,提出了一种基于激光吸收峰和工作温度的高精度双闭环激光温度控制系统的设计方法,对DFB激光器的温度控制系统进行了改进。控制精度。基于ADN8834集成TEC控制器芯片,设计了基于PI补偿网络的温度控制系统,并对温度控制系统进行了仿真分析。为了验证温度控制系统的准确性和长期工作的稳定性,激光甲烷传感器通过了(-20~60)℃的高低温实验。甲烷传感器在煤矿等工业现场的应用提供了技术支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Design and simulation test of DFB laser temperature control system
In order to ensure the measurement accuracy and long-term working stability of the laser methane sensor in the field environment such as coal mines, a design method of a high-precision double-closed-loop laser temperature control system based on the laser absorption peak and working temperature is proposed to improve the temperature control system of the DFB laser. control accuracy. Based on ADN8834 integrated TEC controller chip, the temperature control system based on PI compensation network is designed, and the simulation analysis of the temperature control system is carried out. In order to verify the accuracy and long-term working stability of the temperature control system, the laser methane sensor has passed the (-20~60)℃ high and low temperature experiment. The application of methane sensors in industrial sites such as coal mines provides technical support.
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