Paper Info
Title
An Application of Active Disturbance Rejection Control to Self-Sensing Magnetic Bearings
Abstract
A linearized model of a self-sensing magnetic bearing used in a flywheel energy storage application is analyzed, and an intrinsic feedback mechanism is identified. Based on the model, a cascaded-loop controller is designed using a novel control design technique which actively rejects external disturbances, taking advantage of the feedback mechanism. Simulation results of force-disturbance rejection performance are presented.
Year
DOI
Venue
2007
10.1109/ACC.2007.4283075
New York, NY
Keywords
DocType
ISSN
cascade control,control system synthesis,feedback,linear systems,machine control,magnetic bearings,rotors,active disturbance rejection control,cascaded-loop controller design,flywheel energy storage application,force-disturbance rejection,intrinsic feedback mechanism,linearized model,rotor,self-sensing magnetic bearings,magnetic levitation,energy storage,control systems,linear model,flywheels,electromagnets,feedback mechanism
Conference
0743-1619 E-ISBN : 1-4244-0989-6
ISBN
Citations 
PageRank 
1-4244-0989-6
2
0.46
References 
Authors
1
3
Name
Order
Citations
PageRank
Alexander, B.X.S.120.46
Rarick, R.250.92
Lili Dong3737.26