%0 Journal Article
%T 一种可调谐半导体激光器温控电流源模块的设计
A Design of a Temperature-Controlled Current Source Module for a Tunable Semiconductor Laser
%A 吕众
%A 谭勇
%A 岳鑫
%A 姜春旭
%A 邓昀
%J Applied Physics
%P 47-59
%@ 2160-7575
%D 2020
%I Hans Publishing
%R 10.12677/APP.2020.101006
%X
目前,可调谐半导体激光器吸收光谱(TDLAS)技术应用于痕量气体检测,成为一个研究热点,该技术中的半导体激光器温度控制是检测精度的关键环节。本文研究可调谐半导体激光器的温控电流源模块,采用单片机作为逻辑控制电路、D/A芯片作为数模转换电路、运算放大器构建反向放大器电路、霍尔元件搭建反馈电流监测电路,形成了一种闭环反馈控制机制,使输出电流波动在±1%以内。该模块达到了该类型激光器波长调节的稳定的需求,为TDLAS技术应用于外场环境中痕量气体检测奠定了基础。
At present, tunable semiconductor laser absorption spectrum (TDLAS) technology has become a research hotspot in the detection of trace gases. Temperature control of semiconductor laser in this technology is the key link of detection accuracy. In this paper, we study A tunable semiconductor laser temperature control current source module, MCU as the logic control circuit, D/A chip, as D/A conversion circuit, operational amplifier to construct reverse amplifier circuit, hall element to build feedback current monitoring circuit, form A closed-loop feedback control mechanism, make the output current fluctuations within ±1%. The module meets the requirement of stable wavelength regulation of this type of laser and lays a foundation for TDLAS technology to be applied to trace gas detection in the external field environment.
%K 单片机,恒流源设计,半导体激光器
Single Chip Microcomputer
%K Constant Current Source Design
%K Semiconductor Laser
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=33879