Analytical and FEM Magnetic optimization of a limited motion actuator for automotive application
Abstract
The present work proposes a development of a limited motion actuator dedicated to the air flow regulation of an internal combustion engine [1]. A mixed analytical-FEM optimal design methodology is presented. An analytical study of a bipolar permanent magnet actuator has been done with a first geometrical optimization under constraint by a Genetic Algorithm (GA)[2]. Then, the analytical study is coupled with Matlab® and FEMM freeware in order to integrate a finite element method and a second optimization with a Direct Search Algorithm (DSA). The actuator performance is specified for a small volume with a maximized torque on an angular range from 0 to 100°.