Implementation of a rational method of numerical analysis transitional processes in a valve magnetoelectric generator with six-phase zero rectification circuit

The article poses and solves the problem of developing a universal simulation model of a six-phase magnetoelectric generator (MEG) with a half-wave rectifier based on the mathematical modeling technique, taking into account the rational form of representation of the valve generator (VG) equations and the optimal, in terms of machine time, organization computational procedures. The mathematical description of the gate MEG is based on the method of representing the model equations in a homogeneous coordinate basis of variables, which makes it possible to describe the electromagnetic processes of the SH by a system of differential equations (DE) of the minimum order (in terms of the number of independent circuit circuits - chords of a tree of a directed graph) order. This method is preferred due to the fact that the power structure of the investigated VG does not contain capacitive elements.