激光供能系统寿命预估

Laser Energy Supply System Life Expectancy

对激光供能技术展开理论与实验研究。基于阿伦尼乌斯模型、逆幂率模型以及尼尔森的广义对数线性模型建立激光供能系统的多应力寿命预估模型。寿命预估模型根据不同的温度应力和电压应力,得到实际的可靠度曲线,从而预估出整个激光供能系统的可靠度。模型依据可靠度确定系统的零件更换时间,完成零件的及时更换,确保长期高效的工作,避免由零部件损坏带来的突发状况。在此基础上,研制激光供能系统实用样机,并根据样机实际参数,模拟预估供能系统在各种条件下的预估寿命。理论分析结果表明,该系统在正常应力条件(25℃/5 V)下的理想寿命为10500 h,为后续进一步实验验证奠定基础。该研究可有效提高激光供能技术的可靠性和稳定性,为该技术在电力行业中的广泛应用提供了更好的保障。

Theoretical and experimental research on the laser energy supply technology is made.Based on the Arrhenius model,the inverse power model and the generalized log-linear model of Nelson,the multi-stress life prediction model of the laser energy supply system is established.The life prediction model obtains the actual reliability curve according to different temperature stresses and voltage stresses,thereby estimating the reliability of the entire laser energy supply system.According to the reliability,the replacement time of the parts of the system is determined,and the timely replacement of the parts is completed to ensure long-term and efficient work and avoid the sudden situation caused by the damage of the parts.On this basis,the practical prototype of the laser energy supply system is developed,and the estimated life of the estimated energy supply system under various conditions is simulated according to the actual parameters of the prototype.The theoretical analysis results show that the ideal life of the system under normal stress conditions(25℃/5 V)is 10500 h,which lays a foundation for further experimental verification.This research effectively improves the reliability and stability of laser energy supply technology,and provides a better guarantee for the wide application of this technology in the power industry.