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Reaching Condition Techniques for Mitigation of Chattering In Sliding Mode Controlled Buck Converter

K.B. Siddesh*, Basavaraja **
* Associate Professor, Department of Electronics and Communication Engineering, SJMIT, Chitradurga, India.
** Professor and Chairman, Department of Electrical and Electronics Engineering, UBDTCE, Davangere, India.
Periodicity:September - November'2017
DOI : https://doi.org/10.26634/jcir.5.4.13943

Abstract

This paper presents a reaching condition methods for Sliding Mode Controlled DC-DC Buck Converter. Three approaches are specified for reaching conditions. The approaches comparing among the chattering, which is effectively reduced the chattering and fast speed is kept. The approaches are direct switching, lyapunov and reaching law approach. Among them reaching law approach minimizes the chattering and effective output is obtained. Various output voltages are obtained by keeping V as constant and chattering is analysed, minimized and also takes very less ref time to reach the steady state. A simulation results shows better reduction of chattering by the reaching law.

Keywords

 Buck Converter, Chattering, Sliding Mode Control, Lyapunov Function Approach, Direct Switching Function, Reaching Laws

How to Cite this Article?

 Siddesh, K. B. and Banakara, B. (2017). Reaching Condition Techniques for Mitigation of Chattering in Sliding Mode Controlled Buck Converter. i-manager’s Journal on Circuits and Systems, 5(4), 33-38. https://doi.org/10.26634/jcir.5.4.13943

References
[1]. Chang, F. J., Twu, S. H., & Chang, S. (1990). Adaptive chattering alleviation of variable structure systems control. In IEE Proceedings D (Control Theory and Applications) (Vol. 137, No. 1, pp. 31-40). IET Digital Library.
[2]. Benayache, R., Mahmoud, S. M., Chrifi-Alaoui, L., & Bussy, P. (2009, June). Sliding mode control with integral corrector: Design and experimental application to an interconnected system. In Control and Automation, 2009. th MED'09. 17 Mediterranean Conference on (pp. 831-836). IEEE.
[3]. DWYER III, T. A., & Sira-Ramirez, H. (1988). Variablestructure control of spacecraft attitude maneuvers. Journal of Guidance, Control, and Dynamics, 11(3), 262-270.
[4]. Efe, M. Ö., Ünsal, C., Kaynak, O., & Yu, X. (2004). Variable structure control of a class of uncertain systems. Automatica, 40(1), 59-64.
[5]. Fridman, L. M. (2001). Chattering in Systems with Inertial Sensors: The Singularly Perturbed Approach. IFAC Proceedings Volumes, 34(6), 599-604.
[6]. Gao, W. B. (1996). Theory and Design Method for Variable Sliding Mode Control. Beijing Science.
[7]. Hung, J. Y., Gao, W., & Hung, J. C. (1993). Variable structure control: A survey. IEEE Transactions on Industrial Electronics, 40(1), 2-22.
[8]. Li, P., Ma, J. J., & Zheng, Z. Q. (2011). Sliding mode control approach based on nonlinear integrator. Control Theory and Applications, 28(5), 619-624.
[9]. Li, W. J., Mei, H., & Li, Q. J. (2009). A novel sliding mode variable structure control for robot. Machine Tool and Hydraulics, 37(6), 161-163.
[10]. Luo, N. S., & Feng, C. B. (1989). A new method for suppressing high-frequency chattering in variable structure control systems. In Proc. of IFAC Symp. on Nonlinear Control Systems Design (Vol. 1, pp. 117-122).
[11]. Ma, S., & Boukas, E. K. (2009). A singular system approach to robust sliding mode control for uncertain Markov jump systems. Automatica, 45(11), 2707-2713.
[12]. Mei, H., & Wang, Y. (2009). Fast convergent sliding mode variable structure control of robot. Information and Control, 38(5), 552-557.
[13]. Mi, Y., Li, W. L., & Jing, Y. W. (2008). Variable structure control for a class of discrete-time system based on power reaching law. Control and Decision, 23(6), 643-646.
[14]. Ren, Q. F., Gao, C. C., & Wang, P. (2008). Variable structure control for discrete time systems based on attenuating control. Journal of System Simulation, 20(4), 1056-1059.
[15]. Sun, B., Sun, X. X., Chen, L., & Xue, J. P. (2011). Algorithm of discrete-time sliding mode control based on power-function. Control and Decision, 26(2), 285-288.
[16]. Tan, S. C., Lai, Y. M., & Chi, K. T. (2008). General design issues of sliding-mode controllers in DC–DC converters. IEEE Transactions on Industrial Electronics, 55(3), 1160-1174.
[17]. Wen-Lin, L. (2004). Reaching law of discrete-time variable structure control systems. Control and Decision, 11, 015.
[18]. Wu, T. Z., & Juang, Y. T. (2008). Design of variable structure control for fuzzy nonlinear systems. Expert Systems with Applications, 35(3), 1496-1503.
[19]. Xiao, L., Su, H., Zhang, X., & Chu, J. (2005). A new discrete variable structure control algorithm based on sliding mode prediction. In American Control Conference, 2005. Proceedings of the 2005 (pp. 4643-4648). IEEE.
[20]. Zhao, Y. X., Wu, T., & Ma, Y. (2013). A double power reaching law of sliding mode control based on neural network. Mathematical Problems in Engineering, 2013, Article ID 408272.
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