Design and performance of field regulated reluctance machine

Author

Law, Joseph D. ; Chertok, Allen ; Lipo, Thomas A.

Author_Institution

Dept. of Electr. Eng., Idaho Univ., Moscow, ID, USA

Volume

30

Issue

5

fYear

1994

Firstpage

1185

Lastpage

1192

Abstract

A unique topological configuration for rotating electromagnetic machines that can produce significantly higher force density than an induction machine is investigated. The stator is constructed using full pitch concentrated windings embedded in conventional slots. Rotor saliency is produced using poles constructed of axially oriented laminations. Operation is such that all of the conductors are actively taking part in torque production all of the time. The means for exciting the stator windings allows for independent control of torque and regulation of the rotor flux. A force density comparison is made based on operation with equal surface current density, conduction losses, and peak air-gap flux density. Construction and testing of a prototype 500 RPM, 28 kW laboratory machine, power converter, and controller are described

Keywords

design engineering; laminations; machine control; machine testing; machine theory; magnetic flux; magnetic variables control; power convertors; rotors; stators; synchronous machines; torque control; 28 kW; axially oriented laminations; conduction losses; design; field regulated reluctance machine; force density; full pitch concentrated windings; independent control; peak air-gap flux density; performance; power converter; rotor flux control; rotor saliency; slots; stator; surface current density; topological configuration; torque control; Conductors; Current density; Electromagnetic forces; Electromagnetic induction; Induction machines; Lamination; Production; Reluctance machines; Stator windings; Torque control;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/28.315228

Filename

315228