Title :
Optimal control of indirect matrix converter based microturbine generation system
Author :
Andrade-Romero, J. Alexis ; Romero, J. Franklin A ; Rafikov, Marat
Author_Institution :
Programa de Pos-Grad. em Energia, (Tecnol., Eng. e Modelagem), Fed. Univ. of ABC-UFABC, São Paulo, Brazil
Abstract :
This paper deals with a microturbine generation scheme based on an indirect matrix converter, to interface a high-speed electric generator and a local load, as an alternative to conventional back-to-back converters. An optimal controller is proposed for performance enhancement and efficiency optimization aiming a unit input power factor. Principles of space vector modulation and switch commutation strategy in indirect matrix converters are reviewed. A numerical evaluation of the optimal control and the matrix converter is developed considering the ideal and non-ideal switch models. The simulation analysis considers the input power factor, filter parameters tuning accuracy and numerical stability issues as performance variables.
Keywords :
matrix convertors; numerical stability; optimal control; optimisation; parameter estimation; power factor; power generation control; simulation; tuning; turbogenerators; efficiency optimization; filter parameter tuning accuracy; high speed electric generator; ideal switch model; indirect matrix converter based microturbine generation system; local load; nonideal switch model; numerical evaluation; numerical stability; optimal controller; performance enhancement; performance variables; simulation analysis; space vector modulation; switch commutation strategy; unit input power factor; Mathematical model; Matrix converters; Numerical models; Optimal control; Reactive power; Switches; Vectors;
Conference_Titel :
Control and Automation (ICCA), 2011 9th IEEE International Conference on
Conference_Location :
Santiago
Print_ISBN :
978-1-4577-1475-7
DOI :
10.1109/ICCA.2011.6137967
