Combined finite element and network modeling methods provide a time efficient instrument to simulate multi-physics systems. In this work, the Combined Simulation is applied to a nonlinear electromagnetic energy harvester with electrical interface circuit and capacitive energy storage. The energy harvester consists of two cylindrical permanent magnets placed in a cylinder with opposite directions to each other, whereas one magnet is fixed and the other magnet is freely movable in the vertical direction within the cylinder. A coil surrounds the cylinder and transforms the magneto-mechanical energy into electrical energy by means of electromagnetic induction. An external force with a certain wave-form excites the system.
Finite element and network modeling methods are combined to determine concentrated and distributed network parameters and to describe the nonlinear system as an equivalent circuit …