现代电子技术
現代電子技術
현대전자기술
MODERN ELECTRONICS TECHNIQUE
2014年
1期
148-151
,共4页
逯九利%袁朝辉%高凡
逯九利%袁朝輝%高凡
록구리%원조휘%고범
电液伺服阀%反馈控制器%ATmega16%增量式PID
電液伺服閥%反饋控製器%ATmega16%增量式PID
전액사복벌%반궤공제기%ATmega16%증량식PID
electro hydraulic servo valve%feedback controller%ATmega16%incremental PID
针对电液伺服阀在实际工程应用中出现输出压力不稳定、输出压力偏高或偏低的问题,设计了基于ATmega16平台的数字式液压伺服阀反馈控制器,采集伺服阀输出压力作为反馈信号构成闭环控制系统,采用经典的增量式数字PID控制算法进行压力调节。实际应用结果表明该数字式电液伺服阀反馈控制系统响应快速、输出稳定、输出压力精度高。
針對電液伺服閥在實際工程應用中齣現輸齣壓力不穩定、輸齣壓力偏高或偏低的問題,設計瞭基于ATmega16平檯的數字式液壓伺服閥反饋控製器,採集伺服閥輸齣壓力作為反饋信號構成閉環控製繫統,採用經典的增量式數字PID控製算法進行壓力調節。實際應用結果錶明該數字式電液伺服閥反饋控製繫統響應快速、輸齣穩定、輸齣壓力精度高。
침대전액사복벌재실제공정응용중출현수출압력불은정、수출압력편고혹편저적문제,설계료기우ATmega16평태적수자식액압사복벌반궤공제기,채집사복벌수출압력작위반궤신호구성폐배공제계통,채용경전적증량식수자PID공제산법진행압력조절。실제응용결과표명해수자식전액사복벌반궤공제계통향응쾌속、수출은정、수출압력정도고。
Aiming at the problem of instable output pressure of electro hydraulic servo valve occurred in practical engineering applications,an ATmega16-based electro hydraulic servo valve feedback controller is designed. The output pressure of servo valve is collected as the feedback signal of closed loop control system. And the classic incremental digital PID control algorithm is used to adjust the pressure. The practical application results show that the digital electro hydraulic servo valve feedback control system has fast response,stable output pressure and high accuracy.
