Title :
Finite element analysis of dynamic linear devices
Author :
Jay, A.P. ; Michaelides, A.M. ; Taylor, S.C.
Author_Institution :
Vector Fields Ltd., UK
Abstract :
This paper introduces aspects of finite element linear motion analysis: a transient eddy current program which includes the effects of motion. Field models of electromechanical devices are coupled to motion in a scheme which efficiently models the region between a moving body and a stationary background region; calculates the force on the moving body using the Maxwell stress method (MSM); couples the mechanical and field equations using a 4th order Runge-Kutta method; and preserves the sparseness and symmetry of the finite element matrix. The capabilities of the program are discussed through example models of a levitation device, a linear permanent magnet stepping motor and a coil moving above a conducting slab.
Keywords :
Runge-Kutta methods; coils; electric machine analysis computing; finite element analysis; linear motors; permanent magnet motors; sparse matrices; stepping motors; Maxwell stress method; Runge-Kutta method; coil; conducting slab; dynamic linear devices; electromechanical devices; field equations; field models; finite element analysis; finite element linear motion analysis; levitation device; linear permanent magnet stepping motor; mechanical equations; moving body; sparse finite element matrix; stationary background region; symmetric finite element matrix; transient eddy current program;
Conference_Titel :
Computation in Electromagnetics, 2002. CEM 2002. The Fourth International Conference on (Ref. No. 2002/063)
DOI :
10.1049/ic:20020159
