激光与红外
激光與紅外
격광여홍외
LASER & INFRARED
2014年
1期
94-97
,共4页
模糊控制%PID控制%温度控制%Simulink
模糊控製%PID控製%溫度控製%Simulink
모호공제%PID공제%온도공제%Simulink
fuzzy control%PID control%temperature control%Simulink
基于模糊控制原理,采用模糊控制与PID控制相结合的模糊控制方法,完成了一种针对半导体激光器温度控制的算法设计。该模糊PID控制算法,能够自适应调节PID的比例、积分和微分系数,从而使半导体制冷器的温度保持恒定。Simulink 仿真结果表明,采用该模糊PID控制算法后系统的超调量减少40%,缩短了调节时间,控制效果优于常规PID控制系统。
基于模糊控製原理,採用模糊控製與PID控製相結閤的模糊控製方法,完成瞭一種針對半導體激光器溫度控製的算法設計。該模糊PID控製算法,能夠自適應調節PID的比例、積分和微分繫數,從而使半導體製冷器的溫度保持恆定。Simulink 倣真結果錶明,採用該模糊PID控製算法後繫統的超調量減少40%,縮短瞭調節時間,控製效果優于常規PID控製繫統。
기우모호공제원리,채용모호공제여PID공제상결합적모호공제방법,완성료일충침대반도체격광기온도공제적산법설계。해모호PID공제산법,능구자괄응조절PID적비례、적분화미분계수,종이사반도체제랭기적온도보지항정。Simulink 방진결과표명,채용해모호PID공제산법후계통적초조량감소40%,축단료조절시간,공제효과우우상규PID공제계통。
Based on theory of fuzzy control,a combination method of fuzzy control and PID control is used,which is known as fuzzy PID control.A semiconductor laser temperature control system design is completed.It can adaptively adjust PID proportional,integral and differential coefficient to keep the semiconductor cooler’s temperature con-stant.The simulation results of Simulink show that,after using the fuzzy PID control algorithm the overshoot of the sys-tem is reduced by 40%,the adjustment time is shorten and the control effect is better than conventional PID control system.