Design and implementation of high precision temperature control system for semiconductor lasers
-
摘要: 为了使半导体激光器辐射波长和发光强度的稳定性不受环境温度的影响,设计了一款高精度半导体激光器温控系统。采用AD620和LTC1864芯片设计了温度采集电路,用MAX1968和LTC1655设计了温度控制电路,而用TMS320F2812实现对整个系统的精确控制;提出了自适应模糊比例-积分-微分控制策略并完成了软件实现。在环境温度约15℃时,分别设定25℃和20℃进行试验,温度控制精度达±0.05℃。结果表明,该温控系统响应速度快、稳定性高。
-
关键词:
- 光电子学 /
- 温度控制 /
- 模糊比例-积分-微分算法控制 /
- 半导体激光器
Abstract: To solve the problem that stability of radiation wavelength and luminous intensity of a laser diode were affected easily by temperature, a high precision laser diode temperature control system was designed. Temperature acquisition circuit was designed by means of AD620 and LTC1864 and temperature control circuit by MAX1968 and LTC1655. The whole system was controlled accurately by a TMS320F2812 controller. Adaptive fuzzy proportion-integration-differentiation control strategy was proposed and the software was achieved. At the environmental temperature around 15℃, control precision of temperature was up to ±0.05℃ when the target temperature was set to 25℃ and 20℃ respectively. Experimental results show that the temperature control system has the advantages of fast response and high stability. -
-
[1] YAN S, LI D G, YU Zh L. Research on the simulation of temperature control of semiconductor laser based on ADRC [J]. Industrial Instrumentation & Automation, 2013(1):3-5(in Chinese).
[2] FENG D Q, REN X M. Simulation research on fuzzy PID in network control system[J]. Process Automation Instrumentation, 2013, 34(1):61-63(in Chinese).
[3] WANG X Z, ZENG Zh X, ZHONG Y N, et al. Precise measurement and control of temperature in semiconductor laser based on phase recognition[J]. Journal of Optoelectronics·Laser, 2013, 24(2): 239-245(in Chinese).
[4] BI X Q, YU Y M. Fuzzy self-tuning PID temperature control about PCR instrument[J]. Computer & Digital Engineering, 2013, 41(2):301-303(in Chinese).
[5] YU H. DSP-based intelligent temperature control system for semiconductor lasers[D]. Jilin:Jilin University, 2012: 29-41(in Chinese).
[6] ZHAO Y L, ZHOU J T, XIANG Y. Design of laser marker digital control systems based on DSP[J]. Laser Technology, 2012, 36(6):724-726(in Chinese).
[7] YANG Y. Design of water heating system based on fuzzy self-adaptive PID control[J]. Industrial Control Computer, 2012, 25(12):21-22(in Chinese).
[8] CHEN Y. Design of laser diode source based on MAX1968[J]. Digital Technology & Application, 2012(2):119-120(in Chin-ese).
[9] LI L, BAI R X. Application of fuzzy-PID control in hot water boiler temperature control system[J]. Industrial Control Computer, 2007, 20(2): 41-42(in Chinese).
[10] LIAO Zh Y, DENG H F, WU L H, et al. Design of high precision constant temperature control systems based on laser diodes[J]. Laser Technology, 2012, 36(6): 771-775(in Chinese).
[11] LIU Z X. The laser detection system for the CO content of blast furnace gas based on s12 single-chip microcomputer[D]. Wuhan: Wuhan University of Science and Technology, 2011: 17-47(in Chinese).
计量
- 文章访问数: 4
- HTML全文浏览量: 0
- PDF下载量: 10
下载: