Mathematical Models for the Design of Electrical Machines 

<br/><br/><br/>English[eng] 
<br/><br/><label>Subjects--Topical Terms: </label><br/>surface-mounted PM machines||torque pulsation||magnet shape optimization||analytical expression||2D||electromagnetic performances||finite iron relative permeability||numerical||sinusoidal current excitation||subdomain technique||switched reluctance machine||scattering matrix||Fourier analysis||permanent magnet machines||analytical modeling||analytical model||high-speed||sleeve||non-homogeneous permeability||permanent-magnet||partial differential equations||separation of variable technique||electrical machines||surface inset permanent magnet||electric machines||permanent magnet motor||rotating machines||hybrid excitation||magnetic equivalent circuits||3D finite element method||eddy-current losses||experiment||hybrid model||magnetic equivalent circuit||Maxwell–Fourier method||analytical method||eddy-current||finite-element analysis||loss reduction||permanent-magnet losses||thermal analysis||linear induction motors||complex harmonic modeling||hybrid analytical modeling||2D steady-state models||multiphase induction machine||reduced order||rotor cage||torque pulsations||multi-phase||segmentation||synchronous machines||thermal equivalence circuit||Voronoï tessellation||winding heads||nodal method||thermal resistances||n/a