基于白光的功率稳定控制

Lan Xiao, Jianjun Li, Tao Qi, Kunmeng Zhou, Jia-min Weng
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摘要

针对高稳定性太阳模拟光源的稳定性控制要求,提出了一种基于石英的白光功率稳定控制方法。石英板与扫描器连接固定,以入射光的角度与透光率的关系作为信号调节原理。当扫描器旋转石英板时,调整石英板传送的光信号。根据菲涅耳定律,分析了不同波长入射光下的旋转角度和透射率参数。并计算了石英的旋转角度范围,为实现光源功率稳定性提供了输出参数支持。采用PID算法对监控探测器信号的误差和参考功率对应的电压进行调制,从而精确调节扫描器的输出。稳定器用于控制白激光的功率,陷阱探测器用于验证功率稳定的水平。调制后激光器稳定性的实验结果为:标准差CV为0.069%/55min,峰间波动SV为±0.302%/55min。与自由运行结果相比,SV和CV分别提高到1/15.83和1/33.04,增强了白光的功率稳定性,满足99.6%的稳定性要求。
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Power stability control based on white laser
Aiming at the stability control requirements of high stability solar simulation light source, a white laser power stability control method based on quartz is proposed. The quartz plate is connected and fixed with the scanlab, and the relationship between the Angle of the incident light and the transmittance is taken as the signal regulation principle. When the scanlab rotates the quartz slab, the light signal transmitted by the quartz slab is adjusted. Based on Fresnel's Law, the rotation Angle and transmittance parameters under different wavelength of incident light are analyzed. And the rotation Angle range of quartz is calculated, which provides the output parameter support for realizing the power stability of light source. PID algorithm is used to modulate the error of the signal of the monitoring detector and the voltage corresponding to reference power so as to accurately adjust the output of scanlab. The stabilizer is used to control the power of the white laser, and the Trap detector is used to verify the level of power stability. The experiment results of the stability of the laser after modulation is as follows: the standard deviation CV is 0.069%/55min and the peak-to-peak fluctuation SV is ±0.302%/55min. Compared with the free-running result, SV and CV are improved to 1/15.83 and 1/33.04 respectively, and the power stability of the white laser is enhanced, meeting the stability requirement of 99.6%.
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