Design of silent electric motors: optimization under constraints and parameters uncertainties
Résumé
This paper describes an optimization methodology dedicated to the
minimization of the noise and vibrations in electric motors. It relies
on a numerical workflow which is described in this paper, coupling
models belonging to the fields of electromagnetics, structural dynamics
and acoustics. Afterwards, a deterministic optimization method is
described and applied to automotive traction motors. A robust
enhancement of the optimization is then presented. It aims at
considering the effect of manufacturing tolerances, materials properties
dispersion and control uncertainties on the vibratory and acoustic
levels to minimize, so that the electric motors are really silent when
manufactured and operated. This robust optimization method is applied on
a practical case.
Domaines
Mécanique [physics]
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