DocumentCode
3518779
Title
Magnetic equivalent circuit modeling of rolling rotor switched reluctance motors
Author
Franke, Marco ; Punk, Oliver ; Brutscheck, Michael ; Schmucker, Ulrich
Author_Institution
Univ. of Appl. Sci. Merseburg, Merseburg, Germany
fYear
2010
fDate
12-16 May 2010
Firstpage
320
Lastpage
325
Abstract
Rolling rotor switched reluctance motors (RRSRM) are known as exceptional drive systems. Their fundamental operation is characterized by the coupling of electrical, magnetic and mechanical components and the especial operating mode. The rotor is moved eccentrically in the stator. Due to this property an investigation with conventional mode of description is possible only on limited scale. Therefore, this work describes a new approach on the basis of magnetic equivalent circuit (MEC) method. This method allows the user more possibilities that the finite element method. These investigations on RRSRM are executed on the basis of descriptions which based on the Ohm´s and Kirchhoff´s law. This modeling method is supported by the object-oriented modeling language Modelica and the simulation environment Dymola. By means of this approach the investigations of heterogeneous physical properties of the motor and a possible area of application will be presented in this paper. This method of description offers the possibility to implement each different physical domain inside the same simulation environment, where the coupling between the different physical domains can be well investigated. This approach will show that there are physical interconnections between the miscellaneous domains that have strong influences on the mode of operation.
Keywords
equivalent circuits; finite element analysis; reluctance motor drives; rotors; stators; Kirchhoff law; MEC method; Ohm law; RRSRM; finite element method; magnetic equivalent circuit modeling; object-oriented modeling language Modelica; rolling rotor switched reluctance motor drives; simulation environment Dymola; stator; Magnetic circuits; Magnetic domains; Magnetic fields; Magnetic flux; Mathematical model; Reluctance motors; Rotors;
fLanguage
English
Publisher
ieee
Conference_Titel
Electronics Technology (ISSE), 2010 33rd International Spring Seminar on
Conference_Location
Warsaw
Print_ISBN
978-1-4244-7849-1
Electronic_ISBN
978-1-4244-7850-7
Type
conf
DOI
10.1109/ISSE.2010.5547311
Filename
5547311
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