Discrete-Time LPV Current Control of an Induction Motor
Publikation: Forskning › Konferenceartikel i proceeding
In this paper we apply a new method for gain-scheduled output feedback control of nonlinear systems to current control of an induction motor. The method relies on recently developed controller synthesis results for linear parameter-varying (LPV) systems, where the controller synthesis is formulated as a set of linear matrix inequalities with full-block multipliers. A standard nonlinear model of the motor is constructed and written on LPV form. We then show that, although originally developed in continuous time, the controller synthesis results can be applied to a discrete-time model as well without further complications. The synthesis method is applied to the model, yielding an LPV discrete-time controller. Finally, the efficiency of the control scheme is validated via simulations as well as on the actual induction motor, both in open-loop current control and when an outer speed control loop is closed around the current loop.
|Titel||42nd IEEE Conference on Decision and Control 2003, Maui, Hawaii|
|Konference||Discrete-Time LPV Current Control of an Induction Motor|
|Periode||19-05-10 → …|