Direct steady-state solutions for circuit models of nonlinear electromagnetic devices

Abstract

PurposeThis paper aims to omit the difficulties of directly finding the periodic steady-state solutions for electromagnetic devices described by circuit models.Design/methodology/approachDetermine the discrete integral operator of periodic functions and develop an iterative algorithm determining steady-state solutions by a multiplication of matrices only.FindingsAn alternative method to creating finite-difference relations directly determining steady-state solutions in the time domain.Research limitations/implicationsReduction of software and hardware requirements for determining steady-states of electromagnetic.Practical implicationsA unified approach for directly finding steady-state solutions for ordinary nonlinear differential equations presented in the normal form.Originality/valueEliminate the necessity of solving high-order finite-difference equations for steady-state analysis of electromagnetic devices described by circuit models.