Design of driving and temperature control circuitry for VCSEL

Applied Optics and Photonics China Pub Date : 2023-12-18 DOI:10.1117/12.3004979

Yan Wang, Zhengguang Wang, Helun Song, Wenbo Han

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Abstract

We design a laser driver and temperature control circuit based on the Field Programmable Gate Array (FPGA). Vertical-Cavity Surface-Emitting Laser (VCSEL) is the core device of the nuclear magnetic resonance gyroscope (NMRG). The accuracy of the laser output wavelength greatly affect the detection accuracy of NMRG. In order to improve the accuracy of VCSEL in this application system, in this paper we research the working principle of the laser and analyze the relationship between the laser output wavelength, the driving current and the laser operating temperature through theoretical analysis. We design and built the laser driving and temperature control circuit by using constant current source and the MAX1978, which use FPGA as the main control chip. By setting different voltage values, the laser output corresponds to different wavelengths. We analyze the result of experiment and theoretical calculate through the spectrometer. The result shows that the current regulation error is better than 0.03mA. For the laser temperature control circuit, we used the LTSPICE to simulate the PID control circuit of the compensation loop ,the finally result is consistent with the expected results.

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设计用于 VCSEL 的驱动和温度控制电路

我们设计了一种基于现场可编程门阵列（FPGA）的激光驱动器和温度控制电路。垂直腔表面发射激光器（VCSEL）是核磁共振陀螺仪（NMRG）的核心器件。激光输出波长的精度在很大程度上影响着核磁共振陀螺仪的检测精度。为了提高 VCSEL 在该应用系统中的精度，本文研究了激光器的工作原理，并通过理论分析了激光器输出波长、驱动电流和激光器工作温度之间的关系。我们采用恒流源和 MAX1978，以 FPGA 作为主控芯片，设计并构建了激光驱动和温度控制电路。通过设置不同的电压值，激光输出对应不同的波长。我们通过光谱仪分析了实验结果和理论计算结果。结果表明，电流调节误差优于 0.03mA。对于激光温度控制电路，我们使用 LTSPICE 仿真了补偿环路的 PID 控制电路，最终结果与预期结果一致。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Applied Optics and Photonics China

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