Sliding mode control and stability analysis of buck DC-DC converter

J. F. Tsai; Yon-Ping Chen

doi:10.1080/00207210601176692

Sliding mode control and stability analysis of buck DC-DC converter

J. F. Tsai^*, Yon-Ping Chen

^*Corresponding author for this work

Department of Electrical and Computer Engineering

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

This paper is proposed to deal with the voltage regulation of buck DC-DC converter based on sliding mode control (SMC) technology. A buck DC-DC converter with parasitic resistance is inherently a bilinear system possessing inevitable uncertainties, such as variable resistive load and input disturbance. First, the buck DC-DC converter is modified into an uncertain linear model. Then, SMC technology is adopted to suppress the input disturbance and reduce the effects from the load variation. In addition, the continuous conduction mode (CCM) for normal operation can be guaranteed by the design of sliding function. Finally, experimental results are included for demonstration.

Original language	American English
Pages (from-to)	209-222
Number of pages	14
Journal	International Journal of Electronics
Volume	94
Issue number	3
DOIs	https://doi.org/10.1080/00207210601176692
State	Published - 1 Mar 2007

Keywords

Buck DC-DC converter
Reaching and sliding region (RAS-region)
Sliding mode control (SMC)
Voltage regulation

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10.1080/00207210601176692

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abstract = "This paper is proposed to deal with the voltage regulation of buck DC-DC converter based on sliding mode control (SMC) technology. A buck DC-DC converter with parasitic resistance is inherently a bilinear system possessing inevitable uncertainties, such as variable resistive load and input disturbance. First, the buck DC-DC converter is modified into an uncertain linear model. Then, SMC technology is adopted to suppress the input disturbance and reduce the effects from the load variation. In addition, the continuous conduction mode (CCM) for normal operation can be guaranteed by the design of sliding function. Finally, experimental results are included for demonstration.",

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AB - This paper is proposed to deal with the voltage regulation of buck DC-DC converter based on sliding mode control (SMC) technology. A buck DC-DC converter with parasitic resistance is inherently a bilinear system possessing inevitable uncertainties, such as variable resistive load and input disturbance. First, the buck DC-DC converter is modified into an uncertain linear model. Then, SMC technology is adopted to suppress the input disturbance and reduce the effects from the load variation. In addition, the continuous conduction mode (CCM) for normal operation can be guaranteed by the design of sliding function. Finally, experimental results are included for demonstration.

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Sliding mode control and stability analysis of buck DC-DC converter

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Keywords

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