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Abstrakty
A wide variety of nonlinear phenomena, such as bifurcation and chaos, have been observed in power electronics converters. Much research has been conducted on these behaviours in different converter topologies. The buck converter is known to exhibit chaotic behaviour in a wide parameter range, giving rise to unstable behaviours depending on the circuit parameters values. This paper investigates this bifurcation behaviour by varying the parameters of a voltage PI (Proportional Integral) controlled buck converter operating in continuous conduction mode, using a continuous-time model and constant frequency control signal. Furthermore, a novel and improved version of the PI compensation technique, designed using the multi-objective grey wolf optimiser (MOGWO), is proposed to stabilise the buck converter from chaotic state to periodic orbit.
Wydawca
Czasopismo
Rocznik
Tom
Strony
165--173
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
- LAADI Laboratory, Faculty of Science and Technology, University of Ziane Achour, Djelfa, Algeria
autor
- Department of Electrical Engineering, Ziane Achour University of Djelfa, Djelfa, Algeria
autor
- LAADI Laboratory, Faculty of Science and Technology, University of Ziane Achour, Djelfa, Algeria
Bibliografia
- Al-Hindawi, M. M., Abusorrah, A., AL-Turki, Y., Giaouris, D., Mandal, K. and Banerjee, S. (2014). Nonlinear Dynamics and Bifurcation Analysis of a Boost Converter for Battery Charging in Photovoltaic Applications. International Journal of Bifurcation and Chaos, 24(11), p. 1450142.
- Angulo, D., Angulo, F., Osorio, G. and Olivar, G. (2018). Control of a DC-DC Buck Converter through Contraction Techniques. Energies, 11, p. 3086. doi: 10.3390/en11113086.
- Ayati, M., Bakhtiyari, A. and Gohari, A. (2016). Chaos control in buck converter using fuzzy delayed-feedback controller. In: 4th International Conference on Control, Instrumentation, and Automation (ICCIA), 27-28 January 2016, Qazvin, Iran: Qazvin Islamic Azad University. doi: 10.1109/ ICCIAutom.2016.7483189.
- Banerjee, S., Ghosh, A. and Padmanaban, S. (2016). Modeling and Analysis of Complex Dynamics for dSPACE Controlled Closed-Loop DC-DC Boost Converter. International Transactions on Electrical Energy Systems, 2019, p. e2813.
- Behih, K., Benmahammed, K., Bouchama, Z. and Harmas, M. N. (2019). Real-Time Investigation of an Adaptive Fuzzy Synergetic Controller for a DC-DC Buck Converter. Engineering Technology and Applied Science Research, 9(6), pp. 4984-4989.
- Chakrabarty, K., Poddar, G. and Banerjee, S. (1996). Bifurcation Behavior of the Buck Converter. IEEE Transactions on Power Electronics, 11(3), pp. 439-447.
- Chan, W. C. and Tse, C. K. (1997). Study of Bifurcations in Current-Programmed DC/DC Boost Converters: From Quasi-Periodicity to Period-Doubling. IEEE Transactions on Circuits and Systems I: Fundamental Theory and Applications, 44, pp. 1129-1142.
- Demirbas, Ş., Fidanboy, H. and Kurt, E. (2016). Exploration of the Chaotic Behavior in a Buck-Boost Converter Depending on the Converter and Load Elements. Journal of Electronic Materials, 45, pp. 3889–3899, [© 2016 the Minerals, Metals & Materials Society].
- Duranay, Z. B., Guldemir, H. and Tuncer, S. (2018). Fuzzy Sliding Mode Control of DC-DC Boost Converter. Engineering Technology and Applied Science Research, 8(3), pp. 3054-3059.
- Fu, C. B., Tian, A. H., Yu, K. N., Lin, Y. H. and Yau, H. T. (2018). Analyses and Control of Chaotic Behavior in DC-DC Converters. Mathematical Problems in Engineering, 2018, Article ID 7439137. doi: 10.1155/2018/7439137.
- Ghosh, A. and Banerjee, S. (2017). Study of Complex Dynamics of DC‐DC Buck Converter. International Journal of Power Electronics, 8(4), pp. 23-348.
- Gozim, D., Guesmi, K. and Mahi, D. (2018). On the Elimination of Nonlinear Phenomena in DC/DC Converters using Type-2 Fuzzy Logic Controller. Diagnostyka, 19(3), pp. 73-80. doi: 10.29354/diag/93139.
- Hadjer, A., Ameur, A. and Harmas, M. N. (2017). Robust DC/DC Converter Controllers using PSO. Electrotehnica, Electronica, Automatica, 65(1), pp. 31-37.
- Haytham, A. and Sood, V. (2016). Boost Converter Controller Design Based on Particle Swarm Optimization (PSO). International Journal on Power Engineering and Energy, 7(2), [ISSN Print (2314-7318) and Online (2314-730X)].
- Mirjalili, S., Mirjalili, S. M. and Lewis, A. (2014). Grey Wolf Optimizer. Advances in Engineering Software, 69, pp. 46-61.
- Pyragas, K. (2001). Control of Chaos Via an Unstable Delayed Feedback Controller. Physics Review Letters, 88, pp. 2265-2268.
- Saoudi, M., El-Sayed, A. and Metwally, H. (2017). Design and Implementation of Closed-Loop Control System for Buck Converter using Different Techniques. IEEE Aerospace and Electronic Systems Magazine, 32(3), pp. 30-39. doi: 10.1109/ MAES.2017.150261.
- Singha, A. K., Kapat, S., Banerjee, S. and Pal, J. (2015). Nonlinear Analysis of Discretization Effects in a Digital Current Mode Controlled Boost Converter. IEEE Journal on Emerging and Selected Topics in Circuits and Systems, 5(3), pp. 336-344. doi: 10.1109/JETCAS.2015.2462151.
- Yfoulis, C., Giaouris, D., Stergiopoulos, F., Ziogou, C., Voutetakis, S. and Papadopoulou, S. (2014). Robust Constrained Stabilization of Boost DC-DC Converters through Bifurcation Analysis. Control Engineering Practice, 35, pp. 67-82. doi: 10.1016/j. conengprac.2014.11.004.
- Yuan, Y., Chang, C., Zhou, Z., Huang, X. and Xu, Y. (2015). Design of a Single-Input Fuzzy PID Controller Based on Genetic Optimization Scheme for DC-DC Buck Converter. International Symposium on Next-Generation Electronics (ISNE) (pp. 1-4). IEEE.
Uwagi
Special Section - Artificial Intelligent Based Designs and Applications for the Control of Electrical Drives
Opracowanie rekordu ze środków MNiSW, umowa nr SONP/SP/546092/2022 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2024).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e4b2de15-bf67-4ab1-a95b-cb80aa960671