This paper describes a mathematical model for the numerical design of Axial Flux Permanent magnet synchronous Machines (AFPMs). The mathematical model allows the calculation of the machine quantities by means of a three dimensional finite element algorithm. A finite element formulation using a scalar potential function developed by the authors is discussed. The algorithms allow the accurate evaluation of the main machine quantities, such as flux linkages and phase back emf.
Accurate design of axial-flux PM synchronous machines by means of 3D finite elements analysis / Santini, Ezio; Boccaletti, Chiara; Bruzzese, Claudio; Sordi, P.. - (2003), pp. 223-228. (Intervento presentato al convegno Proceedings of the 5th ELECTROMOTION International Symposium on 'Advanced Electromechanical Motion Systems' tenutosi a Marrakesh, Morocco nel 2003).
Accurate design of axial-flux PM synchronous machines by means of 3D finite elements analysis
SANTINI, EzioPenultimo
;BOCCALETTI, Chiara
Primo
;BRUZZESE, claudioSecondo
;
2003
Abstract
This paper describes a mathematical model for the numerical design of Axial Flux Permanent magnet synchronous Machines (AFPMs). The mathematical model allows the calculation of the machine quantities by means of a three dimensional finite element algorithm. A finite element formulation using a scalar potential function developed by the authors is discussed. The algorithms allow the accurate evaluation of the main machine quantities, such as flux linkages and phase back emf.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
