Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The object of this paper is a step-down (BUCK) power converter working in the continuous conduction mode (CCM) or discontinuous conduction mode (DCM). Two types of transient states in a converter have been analyzed and observed experimentally: slow transients, described by averaged models of a converter and fast transients, in the course of a single switching period. The averaged models of converter working in CCM, presented in various sources are similar, with some differences concerning only the description of parasitic effects. The averaged models for DCM depend on the adopted modeling method. Models obtained by the switch averaging approach are second-order models (containing two reactive elements in equivalent circuit representation). Models obtained by the separation of variables approach are first-order models. The experimental results given in this paper show the first-order type of transients. Another group of experiments concern fast transients in the course of a single switching period. The oscillations of inductor voltage in the part of a switching period are observed for DCM.
Słowa kluczowe
Rocznik
Tom
Strony
773--778
Opis fizyczny
Bibliogr. 17, rys., wykr.
Twórcy
autor
- Koszalin University of Technology, 15-17 Racławicka St., 75-620 Koszalin, Poland
autor
- Koszalin University of Technology, 15-17 Racławicka St., 75-620 Koszalin, Poland
Bibliografia
- [1] X. Zhang and J.W. Spencer, ”Analysis of boost PFC converters operating in the discontinuous conduction mode”, IEEE Trans. on Power Electronics 26, 3621-3628 (2011).
- [2] K. Yao, “Variable-duty-cycle control to achieve high input power factor for DCM boost PFC converter”, IEEE Trans. on Industrial Electronics 58, 1856-1865 (2011).
- [3] R.W. Erickson and D.Maksimovic, Fundamentals of Power Electronics, Kluwer, London, 2002.
- [4] W. Janke, “Averaged models of pulse-modulated DC-DC converters. Part I: Discussion of standard methods”, Archives of Electrical Engineering 61 (4), 609-631 (2012).
- [5] V. Vorperian, “Simplified analysis of PWM converters using model of PWM switch. Part I: Continuous conduction mode”, IEEE Trans. on Aerospace and Electronic Systems 26 (3), 490-496 (1990).
- [6] V. Vorperian, “Simplified analysis of PWM converters using model of PWM switch. Part II: Discontinuous conduction mode”, IEEE Trans. on Aerospace and Electronic Systems 26 (3), 497-505 (1990).
- [7] D. Maksimovic and R.W. Erickson, “Advances in averaged switch modeling and simulation”, Power Electronics Specialists Conf. Tutorial Notes 1, CD-ROM (1999).
- [8] M.K. Kazimierczuk, Pulse-Width Modulated DC-DC Power Converters, J. Wiley, London, 2008.
- [9] W. Janke, “Averaged models of pulse-modulated DC-DC converters, Part II. Models based on the separation of variables”, Archives of Electrical Engineering 61 (4), 633-654 (2012).
- [10] W. Janke, “Equivalent circuits for averaged description of DCDC switch-mode power converters based on separation of variables approach”, Bull. Pol. Ac.: Tech. 61 (3), 711-723 (2013).
- [11] J. Sun, “Averaged modeling of PWM converters operating in discontinuous conduction mode”, IEEE Trans. on Power Electronics 16 (4), 482-492 (2001).
- [12] E. Niculescu, “Small-signal models of some basic PWM converters”, 12th WSEAS Intern. Conf. on Circuits 1, 321-326 (2008).
- [13] S. Gong, “Modeling and simulation of non-ideal buck converter in DCM”, Int. J. Computer Technology and Electronics Engineering 2 (2), 72-75 (2012).
- [14] Y. Qiu, X. Chen, and H. Liu, “Digital average current-mode control using current estimation and capacitor charge balance principle for DC-DC converters operating in DCM”, IEEE Trans. on Power Electronics 25 (6), 1537-1545 (2010).
- [15] J.Xu and J.Wang, “Bifrequency pulse-train control technique for switching DC-DC converters operating in DCM”, IEEE Trans. on Industrial Electronics 58 (8), 3658-3667 (2011).
- [16] C.C. Fang, “Unified discrete-time modeling of buck converter in discontinuous mode”, IEEE Trans. on Power Electronics 26, 2335-2342 (2011).
- [17] S. Gong, “A novel modeling method of nonideal buck-boost converter in DCM”, Third Intern. Conf. on Information and Computing 1, 182-185 (2010).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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