A new topology of hybrid synchronous machine

Author

Amara, Yacine ; Lucidarme, Jean ; Gabsi, Mohamed ; Lécrivain, Michel ; Almed, A.H.B. ; Akémakou, Antoine D.

Author_Institution

Lab. d´´Electr. Signaux et Robot., Ecole Normale Superieure de Cachan, France

Volume

37

Issue

5

fYear

2001

Firstpage

1273

Lastpage

1281

Abstract

Permanent-magnet synchronous machines are able to operate over a wide range of speeds at constant power through the use of control laws allowing for flux weakening. Generally, this is performed by applying a strong demagnetizing current in the d axis, yet such an approach involves the risk of irreversible magnet demagnetization and, consequently, a reduction in machine performance. This paper presents a novel structure for a hybrid synchronous machine. The authors´ solution provides good flux weakening without introducing the risk of magnet demagnetization. In order to explain the structure´s operating principle, they apply a model with a single elementary design; electromotive force measurements are then presented to demonstrate the possibilities of flux weakening, along with a series of simulations to show the contribution of hybrid excitation

Keywords

electric potential; exciters; machine testing; machine theory; magnetic flux; permanent magnet machines; rotors; synchronous machines; control laws; electromotive force measurements; flux weakening approach; hybrid excitation; hybrid synchronous machine topology; operating principle; simulation; single elementary design; wide speed range; Alternators; Demagnetization; Force measurement; Industry Applications Society; Machine windings; Magnetic flux; Permanent magnet motors; Robots; Synchronous machines; Topology;

fLanguage

English

Journal_Title

Industry Applications, IEEE Transactions on

Publisher

ieee

ISSN

0093-9994

Type

jour

DOI

10.1109/28.952502

Filename

952502