CAJ | 학술논문

为了提高红外分布反馈式激光器的工作稳定性,减少其受工作温度波动的影响,采用PID控制技术,设计并研制了一种基于DSP的DFB激光器智能温度控制系统,并利用该系统对DFB激光器进行温度测试仿真实验。实验表明,该系统的温度控制精度为±0.1℃,上升时间为19s,达到稳定的时间为70s,超调量为11.3％,温度控制范围为10℃~60℃,优越于基于单片机的激光器温度控制系统,具有一定的应用价值。
위료제고홍외분포반궤식격광기적공작은정성,감소기수공작온도파동적영향,채용PID공제기술,설계병연제료일충기우DSP적DFB격광기지능온도공제계통,병이용해계통대DFB격광기진행온도측시방진실험。실험표명,해계통적온도공제정도위±0.1℃,상승시간위19s,체도은정적시간위70s,초조량위11.3％,온도공제범위위10℃~60℃,우월우기우단편궤적격광기온도공제계통,구유일정적응용개치。
In order to improve the stability of Distributed Feedback ( DFB ) lasers, reduce the influences of the operation temperature, a DSP-based intelligent temperature control system for DFB lasers is designed using PID control technology, and using this system, a simulation experiment is perfoemed on a DFB laser. The results indicate that the system temperature control accuracy of ±0. 1℃, and rise time of 19s, and achieve the stable time of 70s, and the o_vershoot of 11 . 3%, and control rang of 10℃ ~60℃, is superior to the temperature control system of lasers based on single chip microcomputer, and has certain application value.