The objective of the paper is optimization of the outer rotor permanent-magnet transverse-flux motor using design of experiments. First, the 3-D time-stepping finite-element analysis is used to evaluate the relationship between the measured and calculated results. Further, in the 3-D time-stepping finiteelement analysis a parametric model of the transverse-flux motor is coupled with an external three-phase current source to analyze the impact of the motor geometric parameters on its performance.
B.03 Paper at an international scientific conference
COBISS.SI-ID: 7781972Abstract. The aim of this paper is to present parametric nonlinear reluctance model of outer rotor permanent magnet transverse flux machine (TFM). Main and leakage magnetic flux paths of TFM are studied and modelled with reluctances using mean length and cross area approximation which divide the model into simple solids. General propose circuit simulator is used to solve the model. The main goal of the model is to provide the results of machine performances with sufficient accuracy and quick enough to use them in optimization procedures.
B.03 Paper at an international scientific conference
COBISS.SI-ID: 7784788