基于滑模理论的轧机异步电机模型预测电流控制  被引量:1

Model predictive current control of asynchronous motor in rolling mill based on sliding mode theory

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作  者:方毅芳 吴达远 刘涛 杨盼盼 李文博 FANG Yifang;WU Dayuan;LIU Tao;YANG Panpan;LI Wenbo(Instrumentation Technology and Economy Institute,P.R.China,Beijing 100055,China)

机构地区:[1]机械工业仪器仪表综合技术经济研究所,北京100055

出  处:《北京航空航天大学学报》2024年第11期3382-3390,共9页Journal of Beijing University of Aeronautics and Astronautics

基  金:国家重点研发计划(2018AAA0101803)。

摘  要:小型热连轧机异步传动电机具有生产效率高、操作简单等特点,但由于其经常处于高温、高压、粉尘等恶劣的工作环境中,对控制器的抗干扰性要求较高。针对小型热连轧机异步传动电机,结合滑模控制理论和模型预测控制,运用自适应滑模控制器(ASMC)作为转速外环控制器,且运用全阶滑模磁链观测器(SMRFO)观测并计算转子磁链,设计控制系统。仿真结果表明:该系统能够有效地控制小型热连轧机异步传动电机,相较于传统的模型预测电流控制系统,其响应速度和精度得到显著提升;当电机负载转矩突变时,该系统能够快速重新追踪给定速度,进一步提升抗干扰能力。The asynchronous drive motor of small-scale hot-rolling mills has the characteristics of high production efficiency and straightforward operation.However,due to its often harsh working environment with high temperature,high pressure,and dust,the performance requirements for the controller are higher.To use an adaptive sliding mode controller(ASMC)as the outer speed control loop and to calculate and observe the rotor flux via a full-order sliding mode flux observer(SMRFO),this article focuses on the asynchronous drive motor of small-scale hot-rolling mills.Sliding mode control theory and model predictive control are combined in this design process.According to simulation studies,this system may considerably increase response speed and accuracy over conventional model predictive current control systems while also efficiently controlling the asynchronous drive motor of small-scale hot-rolling mills.The system's capacity to promptly retrace the specified speed in the event of abrupt variations in the motor load torque enhances its anti-interference performance.

关 键 词:小型热连轧机异步传动电机 自适应滑模控制 滑模转子磁链观测器 电流预测 模型预测电流控制 负载转矩突变 

分 类 号:TP13[自动化与计算机技术—控制理论与控制工程]

 

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