Title :
Application of slide mode control to a current-mode-controlled boost converter
Author_Institution :
Univ. d´´Angers, Angers, France
Abstract :
We first study the behavior of a current-mode-controlled boost converter and exhibit its chaotic behavior (when the duty cycle exceeds 50%). We then introduce a practical method (sliding mode control) aiming at totally eliminating chaos and at keeping the desired current-controlled property. Indeed, the standard method (slope compensation) only partly cures this major drawback: even though it eliminates chaos, the converter is not current-controlled any more. Our control method does not only provide stability, it also increases the input voltage variation domain for which the system remains stable. The sliding-mode controlled converter always remains current-controlled, i.e. independently of the duty cycle. We finally establish a mathematical modeling of the whole circuit (close-loop) and study its performance in detail.
Keywords :
DC-DC power convertors; chaos; electric current control; stability; variable structure systems; DC-DC converter; chaos elimination; chaotic behavior; close-loop circuit; current-controlled property; current-mode-controlled boost converter; duty cycle; input voltage variation domain; mathematical modeling; slide mode control; slope compensation; stability; Bifurcation; Chaos; Circuits; Clocks; DC-DC power converters; Inductors; Sliding mode control; Switches; Switching converters; Voltage control;
Conference_Titel :
IECON 02 [Industrial Electronics Society, IEEE 2002 28th Annual Conference of the]
Print_ISBN :
0-7803-7474-6
DOI :
10.1109/IECON.2002.1185248
