Rosskopf, AndreasAndreasRosskopfKnoerzer, KarstenKarstenKnoerzerBaer, EberhardEberhardBaerEhrlich, StefanStefanEhrlich2022-03-142022-03-142018https://publica.fraunhofer.de/handle/publica/40251710.1109/EuroSimE.2018.8369881In the design process of inductive power transfer systems the shape of the inductive component is essential for the operation point, the losses and thus the efficiency. Based on a new placement approach, the amount and position of the windings within the inductive component is defined by a parameter set. With the help of a genetic algorithm these parameters are modified and iteratively optimized with regard to the core and winding losses, calculated by a coupling workflow combining FEM and circuit simulations. The results demonstrate a large variety of geometric winding designs and yield a pare to optimum for the balance of the both dominating loss shares in inductive components.eninductive componentcore losswinding lossoptimizationgenetic algorithm670620530conference paper