Title :
Rotor compliance minimization via μ-control of active magnetic bearings
Author :
Fittro, Roger L. ; Knospe, Carl R.
Author_Institution :
Turbo Genset Co. Ltd., West Drayton, UK
fDate :
3/1/2002 12:00:00 AM
Abstract :
Many important problems in the control of rotating machinery with active magnetic bearings (AMBs) concern the minimization of the dynamic compliance of the rotor at a single or several shaft locations which typically do not correspond to those of a sensor or actuator. Experimental results are presented which demonstrate that controller design problems of this type can be successfully handled via μ synthesis. Herein, the problem of minimizing the peak dynamic compliance at the midspan of a rotor test rig is examined. A significant improvement in performance is obtained by a multivariable μ controller over an optimized PD controller. Interestingly, the μ controller obtained is unstable. Careful attention is given to developing an accurate system model, an important aspect of which is modeling the nonlaminated magnetic actuators used
Keywords :
control system synthesis; magnetic bearings; multivariable control systems; robust control; rotors; vibration control; μ synthesis; active magnetic bearings; control of rotating machinery; controller design; robust control; vibration control; Actuators; Aerodynamics; Coils; Electrical equipment industry; Machining; Magnetic levitation; Magnetic sensors; PD control; Robust control; Shafts;
Journal_Title :
Control Systems Technology, IEEE Transactions on
