摘要
为解决便携式拉曼光谱仪进行定量分析时易受半导体激光器输出光功率以及波长稳定性影响问题,设计了一种基于STM32的高稳定度半导体激光器驱动电路系统。该系统采用高功率密度的恒流芯片TPS54200为激光器提供稳定的恒流源,采用集成温度控制芯片MAX1978对激光器工作温度进行精确控制,结合主控芯片STM32对激光器输出光功率以及工作温度进行高精度调节和控制。实验结果表明,该系统对驱动电流0~1500mA可调,电流线性度为0.17%;工作时间1小时内温度控制最大误差为0.09℃;输出的峰值光波长偏差在0.02nm以内;输出光功率范围宽,稳定性达到0.08%。该设计满足光谱仪工作要求,系统稳定性较好,对同类型激光器适用性较强。
In order to solve the problem that the output power and wavelength stability of semiconductor laser are easy to be affected when the portable Raman spectrometer is used for quantitative analysis,a drive circuit system of semiconductor laser with high stability based on STM32 is designed. The system uses a high-power density constant-current chip TPS54200 to provide a stable constant-current source to the laser,and uses an integrated temperature control chip MAX1978 to precisely control the operating temperature of the laser. What’s more,it combines the main control chip STM32 to precisely adjust and control the output light power and operating temperature of the laser. The experimental results show that the system can adjust the driving current of 0 mA-1500 mA,the linearity of the current is 0.17%,the maximum error of long-term temperature control is 0.09℃ and the deviation of the output peak light wavelength is within 0.02 nm. The output light power has a wide range,and the stability is up to 0.08%. The design can meet the requirements of the spectrometer so that the system stability is good,and the applicability for the same type of laser is strong.
作者
薛萌
黄斐
贾仕达
郭汉明
XUE Meng;HUANG Fei;JIA Shi-da;GUO Han-ming(School of Optical-Electrical and Computer Engineering,University of Shanghai for Science and Technology,Shanghai 200093,China)
出处
《软件导刊》
2020年第9期105-109,共5页
Software Guide
基金
国家自然科学基金项目(61178079)。
关键词
半导体激光器
STM32
恒流控制
恒温控制
拉曼光谱仪
diode laser
STM32
constant-current control
constant temperature control
Raman spectrometer
