Title :
Control of Magnetic Levitation Systems With Reduced Steady-State Power Losses
Author :
de Queiroz, M.S. ; Pradhananga, S.
Author_Institution :
Louisiana State Univ., Baton Rouge
Abstract :
In this paper, we address the problem of controlling a magnetic levitation system with reduced electric power losses. A general control/biasing strategy is proposed which introduces a bias flux in the nonlinear control law, function of the mechanical states. The bias flux ensures the power losses converge to zero as the mechanical states converge to zero and a singularity-free control, without affecting the closed-loop stability. General conditions on the functional form of the bias are provided along with a design example of the control/biasing strategy. An experimental study illustrates that the proposed time-varying-bias controller yields a stabilization performance comparable to the constant-bias version of the controller, but with significantly less ohmic power losses.
Keywords :
closed loop systems; magnetic flux; magnetic levitation; nonlinear control systems; power system control; stability; bias flux; closed-loop stability; constant-bias version; control/biasing strategy; magnetic levitation systems; mechanical states; nonlinear control law; ohmic power losses; reduced electric power losses; reduced steady-state power losses; singularity-free control; stabilization performance; time-varying-bias controller; Control system synthesis; Control systems; Electromagnets; Linear feedback control systems; Magnetic levitation; Magnetic losses; Performance loss; Stability; Steady-state; Voltage control; Active magnetic bearing; control; magnetic levitation; power loss; stabilization;
Journal_Title :
Control Systems Technology, IEEE Transactions on
DOI :
10.1109/TCST.2006.890298
