DocumentCode
581684
Title
Input-output linearization and stabilization analysis of internal dynamics of buck-boost converters
Author
Shuai, Dingxin
Author_Institution
Coll. of Electr. & Inf. Eng., Panzhihua Univ., Panzhihua, China
fYear
2012
fDate
25-27 July 2012
Firstpage
1013
Lastpage
1017
Abstract
Using the state-space average modeling method, a nonlinear affine model of Buck-Boost converter is set up. Based on the input-output linearization method of differential geometry theory, the internal dynamics of the systems, with output represented by inductor current and capacitor voltage respectively, are been studied. It is pointed out that the average PWM model of the `Buck-Boost´ converter, with output represented by the average capacitor voltage, is actually a nonminimum phase system, and its internal dynamics is unstable. So, it is unfeasible to control the output voltage directly. But, if the output is represented by the average inductor current, the system is a minimum phase system, and its internal dynamics is asymptotically stable. It is feasible to control the output voltage indirect through the regulation of inductor current. Further, the nonlinear state feedback law is proposed. The control law proposed in this paper has some advantages of being simple, easy to implement. The validity of the indirect output capacitor voltage control scheme using input-output feedback linearization method is verified by numerical simulation results. Key waveforms based on simulated extensive work verify the superiority of the proposed nonlinear control method.
Keywords
PWM power convertors; asymptotic stability; capacitors; differential geometry; electric current control; inductors; input-output stability; linearisation techniques; nonlinear control systems; state feedback; voltage control; Buck-Boost converter; PWM model; asymptotic stability; differential geometry theory; indirect output capacitor voltage control; inductor current regulation; input-output feedback linearization method; internal dynamics; nonlinear affine model; nonlinear control method; nonlinear state feedback law; nonminimum phase system; numerical simulation; stabilization analysis; state-space average modeling method; Capacitors; Control systems; Equations; Inductors; Nonlinear dynamical systems; Pulse width modulation; Voltage control; Buck-Boost converter; input-output linearization; internal dynamics; nonlinear; stabilization;
fLanguage
English
Publisher
ieee
Conference_Titel
Control Conference (CCC), 2012 31st Chinese
Conference_Location
Hefei
ISSN
1934-1768
Print_ISBN
978-1-4673-2581-3
Type
conf
Filename
6390072
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