电机与控制学报
電機與控製學報
전궤여공제학보
ECTRIC MACHINES AND CONTROL
2015年
4期
58-64
,共7页
伺服驱动系统%机械谐振%轴矩限幅%模型预测控制
伺服驅動繫統%機械諧振%軸矩限幅%模型預測控製
사복구동계통%궤계해진%축구한폭%모형예측공제
servo system%mechanical resonance%shaft torque amplitude limiting control%MPC
为了探究伺服驱动系统中,由于机械传动装置有限的刚度而引发的机械谐振现象,甚至当振幅较大,超过轴系所能承受的最大转矩范围而引发系统安全问题,在双惯量弹性系统模型基础上,研究速度环控制器的4种不同实现方法的控制性能,即工程设计法、极点配置法、轴矩状态反馈法设计的PI控制器和模型预测控制器。通过4种方法的仿真结果,分析了相应的控制效果,同时验证了模型预测控制为最优的控制策略:在抑制机械谐振的同时,可以在保证系统快速动态性能的基础上,对轴矩实现任意限幅功能,从而加强系统运行的安全性。
為瞭探究伺服驅動繫統中,由于機械傳動裝置有限的剛度而引髮的機械諧振現象,甚至噹振幅較大,超過軸繫所能承受的最大轉矩範圍而引髮繫統安全問題,在雙慣量彈性繫統模型基礎上,研究速度環控製器的4種不同實現方法的控製性能,即工程設計法、極點配置法、軸矩狀態反饋法設計的PI控製器和模型預測控製器。通過4種方法的倣真結果,分析瞭相應的控製效果,同時驗證瞭模型預測控製為最優的控製策略:在抑製機械諧振的同時,可以在保證繫統快速動態性能的基礎上,對軸矩實現任意限幅功能,從而加彊繫統運行的安全性。
위료탐구사복구동계통중,유우궤계전동장치유한적강도이인발적궤계해진현상,심지당진폭교대,초과축계소능승수적최대전구범위이인발계통안전문제,재쌍관량탄성계통모형기출상,연구속도배공제기적4충불동실현방법적공제성능,즉공정설계법、겁점배치법、축구상태반궤법설계적PI공제기화모형예측공제기。통과4충방법적방진결과,분석료상응적공제효과,동시험증료모형예측공제위최우적공제책략:재억제궤계해진적동시,가이재보증계통쾌속동태성능적기출상,대축구실현임의한폭공능,종이가강계통운행적안전성。
In servo-drive systems, the stiffness of transmission mechanism is limited which will lead to mechanical resonance and if the oscillation amplitude is larger than the tolerance that the shaft can with-stand, it will lead to the system safety problems. In order to study these problems, based on the model of two-mass elastic system, the four design schemes of speed controller were analyzed. They are engineering design method, pole placement method and shaft torque state feedback, all of which are all based on PI controller and model predictive controller. Control effects of the four strategies were compared by the sim-ulation results. Model predictive controller was verified as the optimal control strategy which can suppress mechanical resonance successfully. Moreover, based on the fast dynamic performance, the function of shaft torque limit at arbitrary value can be achieved to strengthen the operating safety of the system.