Title :
Force control of a linear variable reluctance motor with magnetically coupled phases
Author :
Taylor, David G. ; Ahmed, Raga
Author_Institution :
Sch. of Electr. & Comput. Eng., Georgia Inst. of Technol., Atlanta, GA, USA
Abstract :
The problem of force control is addressed for a type of three-phase linear variable reluctance motor that exhibits strong magnetic coupling between its phases. The force produced is a quadratic function of phase currents with coefficient matrix proportional to the spatial derivatives of inductance. The magnetic coupling leads to a non-diagonal inductance matrix, so all possible products of phase currents are involved in the production of force. Constrained optimization is used to determine phase currents that produce a desired force with minimum power dissipation. The new optimal force controller is shown to be related to an existing force controller that applies to classical synchronous reluctance motors.
Keywords :
commutation; electromagnetic coupling; force control; inductance; linear synchronous motors; machine control; optimal control; reluctance motors; coefficient matrix; constrained optimization; force control; inductance spatial derivatives; magnetically coupled phases; minimum power dissipation; nondiagonal inductance matrix; optimal commutation; optimal force controller; phase currents; strong magnetic coupling; three-phase linear variable reluctance motor; Constraint optimization; Couplings; Force control; Inductance; Magnetic flux; Optimal control; Production; Reluctance motors; Synchronous motors; Teeth;
Conference_Titel :
System Theory, 2002. Proceedings of the Thirty-Fourth Southeastern Symposium on
Print_ISBN :
0-7803-7339-1
DOI :
10.1109/SSST.2002.1027040
