中国机械工程
中國機械工程
중국궤계공정
CHINA MECHANICAl ENGINEERING
2012年
9期
1047-1050
,共4页
龙满林%付永领%李光华%陈双桥
龍滿林%付永領%李光華%陳雙橋
룡만림%부영령%리광화%진쌍교
力矩电机%转台%自抗扰%伺服控制%扰动补偿
力矩電機%轉檯%自抗擾%伺服控製%擾動補償
력구전궤%전태%자항우%사복공제%우동보상
torque motor%flight simulator table%active-disturbance-rejection(ADR)%servo control%disturbance compensation
在直流力矩电机驱动的伺服系统中,由于存在诸多非线性因素和随机性因素,所以致使模型难以准确建立,各类影响因素不能被准确补偿,从而降低了系统仿真分析的有效性和实际应用的控制精度。针对此,引入自抗扰算法,即根据直流力矩电机伺服系统的特性设计自抗扰控制器,综合在线估计,补偿影响因素,即将所有影响因素归结为一个总扰动进行在线观测和补偿,以期进一步提高伺服精度。通过对系统施加苛刻的干扰条件进行仿真研究,根据分析仿真结果整定出控制器参数。为了验证控制算法的有效性,将整定好参数的控制器应用于直流力矩电机驱动的转台内框上进行实验。实验结果表明,基于自抗扰算法控制的转台内框获得了很高的动态跟踪性能,且鲁棒性强,从而验证了所提出方法的可行性。
在直流力矩電機驅動的伺服繫統中,由于存在諸多非線性因素和隨機性因素,所以緻使模型難以準確建立,各類影響因素不能被準確補償,從而降低瞭繫統倣真分析的有效性和實際應用的控製精度。針對此,引入自抗擾算法,即根據直流力矩電機伺服繫統的特性設計自抗擾控製器,綜閤在線估計,補償影響因素,即將所有影響因素歸結為一箇總擾動進行在線觀測和補償,以期進一步提高伺服精度。通過對繫統施加苛刻的榦擾條件進行倣真研究,根據分析倣真結果整定齣控製器參數。為瞭驗證控製算法的有效性,將整定好參數的控製器應用于直流力矩電機驅動的轉檯內框上進行實驗。實驗結果錶明,基于自抗擾算法控製的轉檯內框穫得瞭很高的動態跟蹤性能,且魯棒性彊,從而驗證瞭所提齣方法的可行性。
재직류력구전궤구동적사복계통중,유우존재제다비선성인소화수궤성인소,소이치사모형난이준학건립,각류영향인소불능피준학보상,종이강저료계통방진분석적유효성화실제응용적공제정도。침대차,인입자항우산법,즉근거직류력구전궤사복계통적특성설계자항우공제기,종합재선고계,보상영향인소,즉장소유영향인소귀결위일개총우동진행재선관측화보상,이기진일보제고사복정도。통과대계통시가가각적간우조건진행방진연구,근거분석방진결과정정출공제기삼수。위료험증공제산법적유효성,장정정호삼수적공제기응용우직류력구전궤구동적전태내광상진행실험。실험결과표명,기우자항우산법공제적전태내광획득료흔고적동태근종성능,차로봉성강,종이험증료소제출방법적가행성。
In a servo system driven by DC torque motor,it is difficult to build models because there are several nonlinear and random factors and it is hard to compensate them,thus the control precision in simulation analysis and practical applications will be reduced.Hence,ADR algorithm was adopted to further improve servo precision for servo system driven by DC torque motor,in which the comprehensive disturbance instead of all factors was observed and compensated simultaneously.Through simulation study by building system model with extreme disturbance condition and comparison of different simulation results,the parameters for ADR algorithm were tuned.Real experiments with well tuned parameters was carried out to verify the validity of the algorithm on flight simulator table inner-axis driven by DC torque motor.The experimental results show that a high dynamic tracking performance is achieved and robustness of ADR algorithm is strong.Thus,to tune parameters of algorithm based on nominal model can be used in practical control systems.