An Adaptive Optimal Linear Quadratic Regulator Applied to Three Phases PWM AC - DC Converter

Author

Zerouali, S. ; Allag, A. ; Mimoune, S.M. ; Ayad, M.Y. ; Becherif, M. ; Miraoui, A. ; Khanniche, S.

Author_Institution

MSE Lab., Univ. Mohamed Khider

fYear

2006

fDate

6-10 Nov. 2006

Firstpage

371

Lastpage

376

Abstract

It is difficult to get analytical closed-form solutions of the ac-dc voltage source converter, because their model is time-variant, non linear and includes switching functions. However, to solve these problems, three steps are applied to model it. First, the system is further divided into two parts, the steady-state dc model and the small-signal ac model and the second parts, an adaptive optimal linear quadratic regulator (LQ) to the ac-dc voltage source converter is applied. The LQR regulator is a useful tool in modern optimal control design, consisting of an explicit matrix design equation based on Ricatti equation easily solved in a digital computer assure an improvement in power factor (P.F), harmonic reduction in case of the load variation

Keywords

AC-DC power convertors; PWM power convertors; Riccati equations; adaptive control; control system synthesis; linear quadratic control; matrix algebra; switching convertors; Ricatti equation; ac-dc voltage source converter; adaptive optimal linear quadratic regulator; harmonic reduction; load variation; matrix design equation; power factor; steady-state dc model; switching functions; three phases PWM AC-DC converter; Analog-digital conversion; Closed-form solution; DC-DC power converters; Equations; Pulse width modulation; Pulse width modulation converters; Regulators; Steady-state; Switching converters; Voltage;

fLanguage

English

Publisher

ieee

Conference_Titel

IEEE Industrial Electronics, IECON 2006 - 32nd Annual Conference on

Conference_Location

Paris

ISSN

1553-572X

Print_ISBN

1-4244-0390-1

Type

conf

DOI

10.1109/IECON.2006.348016

Filename

4153334