Библиографический проект.
In the light of new European standards of energy efficiency of electric machines, the use of line-start permanent magnet synchronous machines is set to develop greatly in the years to come. However, the starting and synchronization of these motors still remain as important challenges and need further improvements. These processes need representative models of the way the systems behave.
In order to evaluate the LS-IPMSM’s line-starting obtain the analytical formulations of the d-q machine parameters were obtained with the following possibility to integrate them into an optimization procedure. For instance the optimization task for this particular LS-PMSM could be effectively solved by applying a stochastic search algorithm, called differential evolution.
In the light of new European standards of energy efficiency of electric machines, the use of line-start permanent magnet synchronous machines is set to develop greatly in the years to come. However, the starting and synchronization of these motors still remain as important challenges and need further improvements. These processes need representative models of the way the systems behave.
In order to evaluate the LS-IPMSM’s line-starting obtain the analytical formulations of the d-q machine parameters were obtained with the following possibility to integrate them into an optimization procedure. For instance the optimization task for this particular LS-PMSM could be effectively solved by applying a stochastic search algorithm, called differential evolution.