Accounting for the Armature Magnetic Reaction and Saturation Effects in the Reluctance Model of a New Concept of Claw-Pole Alternator

Author

Ibala, Amina ; Masmoudi, Ahmed

Author_Institution

Sfax Eng. Sch., Univ. of Sfax, Sfax, Tunisia

Volume

46

Issue

11

fYear

2010

Firstpage

3955

Lastpage

3961

Abstract

We describe the development and the experimental validation of a magnetic equivalent circuit (MEC) of a new claw pole alternator where the DC-excitation winding is located in the stator (CPAES), rather than in the rotor in conventional claw pole alternator. Thus, we discarded the brush-ring system and achieved crucial cost, compactness, and reliability benefits. The proposed MEC treats both no-load and loaded armature operations. It also accounts for the saturation of the magnetic circuit. We numerically solve the established MEC using the Newton-Raphson algorithm. We validated the established MEC by considering experimental tests carried out on a prototype of the CPAES. We found that the results yielded by the proposed MEC and those given by the experimental tests are in good agreement.

Keywords

Newton-Raphson method; alternators; equivalent circuits; magnetic circuits; rotors; stators; DC-excitation winding; Newton-Raphson algorithm; armature magnetic reaction; brush-ring system; claw-pole alternator; loaded armature operation; magnetic circuit; magnetic equivalent circuit; reluctance model; saturation effects; stators; Alternators; Armature; Circuit testing; Costs; Equivalent circuits; Magnetic circuits; Prototypes; Rotors; Saturation magnetization; Stator windings; DC-excitation in the stator; experimental validation; magnetic armature reaction; magnetic equivalent circuit; new claw pole alternator; saturation;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.2010.2055882

Filename

5499088