Title :
Scalability characteristics of magnetic circuit model for fractional-slot concentrated winding IPM machines
Author :
Tangudu, J.K. ; Jahns, Thomas M.
Abstract :
Prior work has shown that it is possible to develop a magnetic circuit model (MCM) for fractional-slot concentrated winding (FSCW) interior permanent magnet (IPM) machines that captures the major sources of electromagnetic nonlinearity that are important in this type of machine. This MCM has been defined to incorporate several modularity principles in order to maximize its flexibility for different machine designs. An investigation has been carried out to evaluate the scalability characteristics of this MCM in several key dimensions including power rating, pole/slot number combinations, diameter/length aspect ratio, stator winding configuration, stator phase number, and external/internal rotor configurations. Several FSCW-IPM machine designs that have been evaluated for this scalability investigation, but one example, consisting of a direct-drive 500 kW FSCW-IPM wind turbine generator, is highlighted in this paper. Model delivers promising results as reflected in close matches between predicted flux densities, flux linkages, voltages and torque delivered by the MCM and finite element analyses.
Keywords :
finite element analysis; machine windings; magnetic circuits; magnetic flux; permanent magnet machines; turbogenerators; wind turbines; MCM; diameter-length aspect ratio; direct-drive FSCW-IPM wind turbine generator; electromagnetic nonlinearity source; external-internal rotor configuration; finite element analyses; flux density prediction; flux linkage; fractional-slot concentrated winding IPM machine; interior permanent magnet machine; magnetic circuit model; modularity principle; pole-slot number combination; power rating; scalability characteristic; stator phase number; stator winding configuration; Couplings; Magnetic circuits; Power capacitors; Rotors; Stator windings; Windings; Electric machines; fractional slot concentrated winding; interior permanent magnet machines; magnetic circuit;
Conference_Titel :
Energy Conversion Congress and Exposition (ECCE), 2012 IEEE
Conference_Location :
Raleigh, NC
Print_ISBN :
978-1-4673-0802-1
Electronic_ISBN :
978-1-4673-0801-4
DOI :
10.1109/ECCE.2012.6342777
