Title :
Analysis of Flux-Reversal Machine Based on Fictitious Electrical Gear
Author :
More, D.S. ; Fernandes, B.G.
Author_Institution :
Dept. of Electr. Eng., Walchand Coll. of Eng., Sangli, India
Abstract :
This paper proposes a concept of fictitious “Electrical Gear” to analyze the flux pattern in the three-phase flux-reversal machine (FRM). The rotating-flux pattern of FRM has either two or four poles depending on the number of stator poles. FRM can be analyzed on similar lines as permanent magnet synchronous machine with the concept of this gear. The flux-density distribution in FRM is analyzed with Fourier analysis. The magnitude of various space harmonics and their contribution to the winding-flux linkages are determined. The procedure for finding the rms value of air-gap flux density from machine dimensions is described. In order to verify the aforementioned analysis, a 6/14 pole FRM with distributed and concentrated windings is designed and fabricated. The experimental results are compared with those obtained from finite-element method simulation studies and analytical results.
Keywords :
Fourier analysis; air gaps; magnetic flux; permanent magnet machines; poles and zeros; stators; synchronous machines; Fourier analysis; air-gap flux density; concentrated windings; distributed windings; fictitious electrical gear; finite-element method simulation studies; flux-density distribution; machine dimensions; permanent magnet synchronous machine; rotating-flux pattern; space harmonics; stator poles; three-phase flux-reversal machine; winding-flux linkages; Air gaps; Atmospheric modeling; Couplings; Gears; Harmonic analysis; Permanent magnet machines; Windings; Doublysalient permanent-magnet electrical machine; electrical gear; finite-element method (FEM) analysis; flux-reversal machine (FRM); full-pitch winding; space harmonics;
Journal_Title :
Energy Conversion, IEEE Transactions on
DOI :
10.1109/TEC.2010.2048330
