Title :
Homopolar variable reluctance machine incorporating an axial field coil
Author :
Goodier, Ewan R T ; Pollock, Charles
Author_Institution :
Harrison Goddard Foote, Sheffield, UK
Abstract :
Switched reluctance drives have been shown to benefit from DC flux assistance from a coil arrangement that is mutually coupled to all its phase windings. This paper proposes an alternative way of providing this additional DC flux through the use of a toroidal, axially orientated coil. A reluctance machine is constructed and tested in which the stator comprises two stacks separated by a coil to give axial magnetic flux. This construction is similar to a homopolar inductor alternator. The paper describes and develops the complex magnetic structure of the machine and describes initial test results. The ideal angular orientation between the two stator stacks is presented.
Keywords :
alternators; coils; equivalent circuits; homopolar motors; inductors; magnetic flux; reluctance motors; stators; DC flux assistance; angular orientation; axial field coil; axial magnetic flux; complex magnetic structure; control; homopolar inductor alternator; homopolar variable reluctance machine; phase windings; power electronics; reluctance machine; static magnetic equivalent circuit calculation; stator; switched reluctance motors; toroidal axially orientated coil; Alternators; Coils; Inductors; Magnetic flux; Magnetic separation; Mutual coupling; Reluctance machines; Stators; Testing; Toroidal magnetic fields;
Journal_Title :
Industry Applications, IEEE Transactions on
DOI :
10.1109/TIA.2002.804740
