[1] Luo S Y. Design of high precision temperature controller for narrow line width laser diodes[D]. Hangzhou: Zhejiang University of Technology, 2-3(2019).
[2] Wu D Y, Gao S X, Cao H Z et al. Phase transition cooling techniques for high power diode laser[J]. High Power Laser and Particle Beams, 25, 2799-2802(2013).
[3] Huang Y Z, Guo X, Song Q H et al. Preface to “semiconductor laser” topic[J]. Chinese Journal of Lasers, 47, 0701000(2020).
[4] Ning Y Q, Chen Y Y, Zhang J et al. Overview of high power semiconductor laser development and related technologies[J]. Acta Optica Sinica, 41, 0114001(2021).
[5] Jin C. Development of TEC temperature control system based on the solid laser[D]. Harbin: Harbin Institute of Technology, 2(2019).
[6] Hao Z Q[J]. Li H Z. Design on laser diode temperature control circuit. Advanced Materials Research, 850/851, 512-515(2013).
[7] Zhou G D. Research and application of temperature control system for high stability laser source[D]. Beijing: Beijing University of Posts and Telecom, 4(2019).
[8] Zheng S H, Yang Y H. High precision and accuracy wavelength tuning characteristics of modulated grating Y-branch tunable lasers[J]. Chinese Journal of Lasers, 46, 0201001(2019).
[9] Li J L, Shi Y B, Zhao P F et al. High precision thermostat system with TEC for laser diode[J]. Infrared and Laser Engineering, 43, 1745-1749(2014).
[10] Yu H. DSP-based intelligent temperature control system for semiconductor lasers[D]. Changchun: Jilin University, 4-10(2012).
[11] Wang Z Q, Duan J, Zeng X Y et al. Research of precise temperature control systems of high-power semiconductor lasers[J]. Laser Technology, 39, 353-356(2015).
[12] Lu Y, Zhang Y R, Hu X L et al. Design of semiconductor laser temperature control system based on fuzzy PID[J]. Machinery & Electronics, 36, 50-53(2018).
[13] Liang J Q, Dong H B, Ge J et al. High-precision portable temperature measurement system based on three kinds of sensors[J]. China Measurement & Test, 42, 70-74(2016).
[14] Zheng B C[J]. Design and implementation of high precision temperature control circuit based on PID automatic control Electronic Technology & Software Engineering, 2020, 88-90.
[15] Zhou F E. Application research of integrated temperature sensor AD590 in granary temperature detection[J]. Fujian Computer, 33, 128-129(2017).
[16] Wang L G. Design of a temperature measurement and control system based on STC89C52 and AD590[J]. Internet of Things Technologies, 9, 20-21(2019).
[17] Lu A X, Liu P K. Measurement range controllable high resolution temperature measurement system based on PT1000[J]. Automation and instrumentation, 33, 64-68, 91(2018).
[18] Zhang T T[J]. Design and FPGA programming of analog current acquisition based on AD7862 Electronic Technology & Software Engineering, 2018, 84-85.
[19] Yang J W. Research on high precision temperature control system based on fuzzy PID control[D]. Hangzhou: Zhejiang University of Technology(2018).
[20] Chen L, Zhan Y D. Temperature control of PEMFC based on variable universe fuzzy PID[J]. Electronic Measurement Technology, 43, 1-5(2020).
[21] Zeng W J, Jiang Q F, Xie J S et al. A functional variable universe fuzzy PID controller for load following operation of PWR with the multiple model[J]. Annals of Nuclear Energy, 140, 107174(2020). http://www.sciencedirect.com/science/article/pii/S030645491930684X
[22] Yan S L. The design of DSP-based temperature control system for DFB lasers[J]. Laser Journal, 35, 93-95(2014).
[23] Wang L P. PID control system design and automatic tuning using MATLAB/Simulink[M]. Hoboken: John Wiley & Sons(2020).