Cascade-Free Predictive Speed Control for Electrical Drives
Industrial Electronics, IEEE Transactions (2014)
摘要
This paper presents the design of a predictive speed controller for electrical drives. The control scheme does not have a cascaded structure; instead, it uses a single optimization algorithm to generate the control action to be applied at the next sampling instant. The control is based on the optimization of a cost function, which is designed using the insight given by the solution of the minimum-time control problem for a simplified system, namely, the double integrator, which is a reasonable model of the machine dynamic behavior. The experimental results obtained with a permanent-magnet synchronous motor and an induction machine, fed by a two-level three-phase inverter, confirm that this approach reaches a very good dynamic performance without a high computational effort.
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关键词
angular velocity control,induction motor drives,invertors,machine control,optimisation,permanent magnet motors,predictive control,synchronous motor drives,cascade-free predictive speed control scheme,cascaded structure,cost function optimization,double integrator,electrical drives,induction machine,machine dynamic behavior model,minimum-time control problem,permanent-magnet synchronous motor,single optimization algorithm,two-level three-phase inverter,Double integrator,drives,finite-set model predictive control (FS-MPC),induction machine (IM),minimum-time control problem,permanent-magnet synchronous motor,predictive speed control
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