Abstract
DC–DC converters are an important element in photovoltaic systems to attain desired level of energy and to shape it according to the demand. This paper proposes new optimized sliding mode controller (SMC) with fixed switching frequency for a boost converter to step up a fluctuating solar panel voltage to a higher constant DC voltage. Based on the converter functioning principle, a sliding mode controller (SMC) is proposed. Then, a method for SMC parameters selection using simplex and PSO techniques is given. The simplex method allows obtaining the admissible ranges for SMC parameters while taking into account practical considerations about the converter. Then, theses ranges will be used by the particle swarm optimization technique (PSO) to find optimal values for controller parameters.
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References
Baggini, A.: Handbook on Power Quality. Wiley, Hoboken (2008)
Christoph, K., Thomas, S., Jessica, T., Sebastian, N., Johannes, M.: Levelized Cost of Electricity Renewable Energies, Edition: May 30, Fraunhofer Institute for Solar Energy Systems ISE Germany (2012)
Utkin, V., Guldner, J., Shi, J.X.: Sliding Mode Control in Electromechanical Systems. Taylor & Francis, London (1999)
Erickson, R.W., Maksi-movic, D.: Fundamentals of Power Electronics. Kluwer Academic Publishers, London (1999)
De Battista, H., Mantz, R.J.: Variable structure control of a photovoltaic energy converter. IEE Proce-Control Theory Appl. 149(4), 303–310 (2002)
Adragna, C., Simone, S.D., Gattavari, G.: New Fixed Off-Time PWM Modulator Provides Constant Frequency Operation in Boost PFC Pre-regulators. SPEEDAM (2008)
Xiaoru, X., Xiaobo, W., Xiaolang, Y.: A Quasi Fixed Frequency Constant On Time Controlled Boost Converter. IEEE (2008)
Tan, S.C., Lai, Y.M., Tse, C.K.: A Fast-Response Sliding-Mode Controller for Boost-Type Converters with a Wide Range of Operating Conditions. IEEE. Trans. End. Elec. (2007)
Tan, S.C., Lai, Y.M., Tse, C.K.: Implementation of pulse-width-modulation based sliding mode controller for boost converters. IEEE Power Electr. Lett. 3(4), 130–135 (2006)
Navarro-Lopez, E.M., Cortes, D., Castro, C.: Design of particle sliding-mode controllers with constant switching frequency for power converters. Electr. Power Syst. Res. 79, 796–802 (2009)
Guesmi, K.: Comments on: Design of particle sliding-mode controllers with constant switching frequency for power converters. Electr. Power Syst. Res. 79, 796–802 (2009)
Singiresu, S.R.: Engineering Optimization: Theory and Practice. Wiley, Hoboken (2009)
Yang, X.-S.: Engineering Optimization. Wiley, Hoboken (2009)
Eberhart, R.C., Shi, Y.: Particle Swarm Optimization and Intelligence: Developments, Applications and Resources. IEEE (2001)
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Khoudiri, A., Guesmi, K., Mahi, D. (2017). Optimized Sliding Mode Control of DC-DC Boost Converter for Photovoltaic System. In: Chadli, M., Bououden, S., Zelinka, I. (eds) Recent Advances in Electrical Engineering and Control Applications. ICEECA 2016. Lecture Notes in Electrical Engineering, vol 411. Springer, Cham. https://doi.org/10.1007/978-3-319-48929-2_31
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DOI: https://doi.org/10.1007/978-3-319-48929-2_31
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