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智能分区PID控制算法在电动缸伺服系统中的研究
引用本文:曾从吉,单梁,陆建荣. 智能分区PID控制算法在电动缸伺服系统中的研究[J]. 应用声学, 2015, 23(6)
作者姓名:曾从吉  单梁  陆建荣
作者单位:南京理工大学 自动化学院,,
基金项目:国家自然科学基金项目(面上项目,重点项目,重大项目)
摘    要:针对电动缸伺服系统中的非线性环节,本文采用带线性补偿的分区二级前馈PID控制算法。首先建立电动缸伺服系统的仿真模型,并采用单组控制参数的二级前馈PID控制算法,通过仿真发现系统存在着抖动、精度较低的问题。然后提出了具有线性补偿的分区二级前馈PID控制算法,改进了相应的控制器结构并实现控制器的数字离散化。最后通过线性补偿的方法整定实际系统在各分区的控制参数,计算出相应的控制量。对比分析实际系统的稳态误差,发现智能分区PID控制器在电动缸伺服系统中能够取得更好的控制效果。

关 键 词:电动缸  伺服系统  智能分区  线性补偿  数字化实现

The Research of Intelligent Partitioning PID Control Algorithm in Electric Cylinder Servo System
Abstract:To the nonlinear part of electric cylinder servo system, the intelligent partitioning PID control algorithm with linear compensation is adopted in this paper. Firstly, the model of the electric cylinder servo system is set up and the intelligent partitioning PID control algorithm is adopted in the system. Through the result of the simulation, the problems of dither and low precision are found in the system. Then the intelligent partitioning PID control algorithm with linear compensation is adopted. Meanwhile, the structure of the controller is improved and the corresponding digital discretization is realized. Finally, the control parameters of each partition are set in the actual system through the method of linear compensation and the corresponding control result is calculated. Through the comparison the steady-state error of the actual system, the intelligent partitioning PID controller in electric cylinder servo system can achieve satisfied control results.
Keywords:Electric  Cylinder, Servo  System, Intelligent  Partitioning, Linear  Compensation, Digital  Implementation
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