Impulse Control System for Combined Solar and Wind Installation with Superconductor Equipment
Keywords:
Superconductive Equipment, Electric Power Facility, Analytical Approximation, Impulse Nonlinear Systems, Generalized Galerkin MethodAbstract
Purpose: There has been considered a PLC-based control system of electric power facility which includes superconductor equipment.
Method: An inverted direct variation of the generalized Galerkin method has been used for control system design. Results: There have
been obtained analytical “input/output” recurrence relations defining Galerkin integrals for analytically approximated nonlinear
characteristics in case of an impulse exponential process at their inputs which application allows to fully algebraize a solution of the
problem of continuous automatic control systems synthesis using the given type of approximation of nonlinear characteristics. Practical
relevance: The developed theoretical statements based on the generalized Galerkin method have allowed using that mathematical
model for automatic impulse control systems at analytical approximation of nonlinear static characteristics. Practical relevance of the
research results is creation of the system of automatic control of a combined power facility with superconductive equipment.