i-manager Publications

Performance Improvement of DC-DC Buck and Boost Converter Using GA Based SMC

P.Melba Mary*, R.Anand**, V.Akila***

* Principal, V. V. College of Engineering, Tisaiyanvilai, Tamil Nadu, India.

** Associate Professor, Department of Electrical and Electronics Engineering, National College of Engineering, Maruthakulam, India.

*** PG scholar, Department of Electrical and Electronics Engineering, National College of Engineering, Maruthakulam, Tamil Nadu, India.

Periodicity:February - April'2014
DOI : https://doi.org/10.26634/jic.2.2.2953

Abstract

This project shows the use of optimization techniques for DC-DC buck and boost converter. Nowadays, dc-dc converters are used in many applications. The sliding mode control based on variable structure system theory has been examined by buck and boost switching mode converter type. In this project, the dynamics response of both buck and boost converter can be increased by using some optimization techniques. The sliding mode control strategy has been proposed to ensure system stability even when the large input voltage and load variation, and the dynamic response can be increased. The sliding surface has been selected by assigning the poles combined with genetic algorithm which it will give sliding regime. The simulation result of the proposed genetic algorithm based SMC strategy is compared with the existing SMC. The proposed GA based SMC gives considerable improvement in faster output voltage response during load variation.

Keywords

Buck Converter, Boost Converter, Sliding Mode Control (SMC), Dynamic Response, Genetic Algorithm (GA).

How to Cite this Article?

Melbamary, P., Anand, R., and Akila, V. (2014). Performance Analysis of PI And Fuzzy Logic Controller For Speed Control of PMBLDC Drive. i-manager’s Journal on Instrumentation and Control Engineering, 2(2), 11-17. https://doi.org/10.26634/jic.2.2.2953

References

[1]. M. Bensaada ,A. Boudghene Stambouli, (2013). “A practical design sliding mode controller for DC–DC converter based on control parameters optimization using as signed poles associate to genetic algorithm”, Int J Electr Power syst. 32(2):101-7

[2]. Fernandez-Vargas, J., Ledwich G., (2010). “Variable structure control for power systems stabilization”, Int J Electr Power syst. 32(2):101-7

[3]. Jafarian, MJ.,Nazarzadeh,J.,(2011). “Time-optimal sliding-mode control for multiquadrant buck converters”, IET Power Electron; 4(1):143–50.

[4]. Tan, SC., Lai, YM., Cheung, MKH., Tse, 1.CK., (2005). “On the practical design of a sliding mode voltage controlled buck converter”, IEEE Trans Power Electron, 20(2):425–37.

[5]. Tan, SC., Lai, YM., Tse, CK., Cheung, MKH., (2006). “Adaptive feed forward and feedback control schemes for sliding mode controlled power converters”, IEEE Trans Power Electron; 21(1):pp.182-192

[6]. Juan, F., Gerard, L., (2010). “Variable structure control for power systems stabilization”, Int J Electrical Power Energy Syst;32(2):pp.101–7.

[7]. Tan, SC., Lai, YM., Tse, CK., (2008).”'Indirect sliding mode control of power converters via double Integral sliding surface”, IEEE Trans Power Electron;23(2):600–11.

[8]. Tan, SC., Lai, YM., Tse, CK., (March 2008). “General design issues of sliding mode controllers in DC-DC converters”, IEEE Trans Industr Electron;55(3):1160–73.

[9]. Komurcugil Hasan., (2012). “Adaptive terminal slidingmode control strategy for DC–DC buck converters”, ISA Trans;51(6):673–81.

[10]. Tan SC, Lai YM, Tse CK, (2007). “Martinez-Salamero L. Special family of PWM-based sliding mode voltage Controllers for basic DC–DC converters in discontinuous conduction mode”. IET Electron Power Appl 2007;1(1).

[11]. Mattavelli P, Rossetto L, Spiazzi G, Tenti P., (1993). “General-purpose sliding-mode controller for DC/DC converter applications”. In: Proceedings of IEEE power electronics specialists conferences (PESC), Seattle, pp. 60n9-615.

[12]. Spiazzi G, Mattavelli P, Rossetto L, Malesani L., (1995). “Application of sliding modecontrol to switch-mode power supplies”. J Circ Syst Comput (JCSC), 5(3):337–54.

[13]. Mattavelli P, Rossetto L, Spiazzi G., (1997). “Smallsignal analysis of DC–DC converterswith sliding mode control”. IEEE Trans Power Electron 1997;12(1):96–102.

[14]. Hansruedi Bühler., (1986). “Réglage par mode de glissement”. Presses polytechniques romandes.

[15]. Sira-Ramirez H., (2003). “On the generalized PI sliding mode control of DC- to-DC power converters: A tutorial”. Int J Control 2003;76(9/10):1018–33.

[16]. Ahmed M, Kuisma M, Tolsa K, Silventoinen P., (2003). “Implementing sliding mode control for buck converter”. Proc IEEE PESC Rec2:634–7.

[17]. Malesani L, Rossetto L, Spiazzi G, Tenti P., (1995). “Performance optimization of Cuk converters by slidingmode control”. IEEE Trans Power Electron,10(3):302–9.

	North Americas,UK, Middle East,Europe		India	Rest of world
	USD	EUR	INR	USD-ROW
Online	200	35	35	200	15
Pdf	35	35	200	20
Pdf & Online	35	35	400	25

Performance Improvement of DC-DC Buck and Boost Converter Using GA Based SMC

Abstract

Keywords

How to Cite this Article?

References

If you have access to this article please login to view the article or kindly login to purchase the article

Purchase Instant Access

Options for accessing this content: