Title :
Parametric modeling and control of a long-range actuator using magnetic servo levitation
Author :
Gutierrez, Hector Martin ; Ro, Paul I.
Author_Institution :
Precision Eng. Center, North Carolina State Univ., Raleigh, NC, USA
fDate :
9/1/1998 12:00:00 AM
Abstract :
A mechatronic device based on magnetic servo levitation (MSL) is proposed for long range and wide bandwidth actuation. The force capability of this type of actuator can be significantly larger than a linear motor or voice-coil actuator of similar dimensions. A novel parametric model of the electromagneto-mechanical coupled system has been developed to describe its behavior over a large range of motion and frequency, as opposed to more conventional attractive force small-perturbation models. It also provides a convenient way of devising a feedback linearizing control scheme that eliminates the need for high biasing currents present in most magnetic bearing systems. This paper presents a feedback-linearized controller coupled with a Kalman filter as a first approach to solve the tracking problem for such an actuator. Good tracking performance have been found both in simulation and experiments
Keywords :
Kalman filters; actuators; electromagnets; feedback; linearisation techniques; magnetic levitation; mechatronics; servomechanisms; tracking; Kalman filter; electromagneto-mechanical coupled system; feedback linearizing control; long-range actuator; magnetic bearing; magnetic servo levitation; mechatronic device; parametric model; tracking; Bandwidth; Electromagnetic coupling; Frequency; Hydraulic actuators; Magnetic devices; Magnetic levitation; Mechatronics; Parametric statistics; Servomechanisms; Servomotors;
Journal_Title :
Magnetics, IEEE Transactions on
