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机构地区:[1]广东工业大学广东省微纳加工技术与装备重点实验室,广东广州510006 [2]广东金融学院,广东广州510521
出 处:《机床与液压》2015年第8期124-127,共4页Machine Tool & Hydraulics
基 金:广东省引进创新科研团队计划资助项目(201001G0104781202)
摘 要:为了提高微结构自由曲面光学元件超精密加工中快刀伺服系统的跟踪精度和抗干扰性,引入自抗扰控制器。通过对快刀伺服刀架进行建模分析,得到惯性环节和二阶振荡环节串联的等效模型。根据低阶自抗扰控制器控制高阶系统的理论,设计出二阶三维扩张状态观测器,可对来自各种干扰源未知扰动的观测结果做出实时估计和补偿。设计出自抗扰控制器,并给出了参数整定的规则。数字仿真实验表明:自抗扰控制器具有良好的控制品质,应用在快刀伺服系统中可以提高控制系统的跟踪性能和抗干扰性。In order to improve tracking accuracy and robustness of fast tool servo ( FTS) system in ultra-precision machining for the microstructured freeform optics components, the active disturbance rejection control ( ADRC) was introduced. By modeling and a-nalysis for the FTS, the equivalent model of inertia link and second oscillation link in series was obtained. According to the theory of low-order ADRC controlling high-order systems, a three-dimensional and second-order state observer ( ESO) was designed. It could be used to estimate and compensate observations real-time caused by unknown disturbances from all kinds of sources, and then the ADRC controller was designed. Moreover, parameter tuning rules were given. Digital simulation results show that ADRC has good controlling quality. Its application in fast tool servo system can improve the tracking performance and robustness.
关 键 词:微结构自由曲面 超精密加工 自抗扰控制 快刀伺服系统
分 类 号:TP273[自动化与计算机技术—检测技术与自动化装置]
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