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High efficiency contactless energy transfer system with power electronic resonant converter

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
A novel Inductive Contactless Energy Transfer (ICET) system is presented in this paper. The energy is transferred using a rotatable air gap transformer and a power electronic converter. To minimize total losses of the system a series resonant circuit is applied, assuring zero current switching condition for IGBT power transistors. The analytical expression of the transfer dc voltage gain is given and discussed. The developed ICET system is characterized by high efficiency and fast FPGA based controller and protection system. The resonant frequency is adjusted by extreme regulator which follows instantaneous value of primary peak current. Simulated and experimental results which verify and illustrate operation of developed 3 kW laboratory model are presented.
Rocznik
Strony
375--381
Opis fizyczny
Bibliogr. 18 poz., rys., tab., fot.
Twórcy
  • Electrotechnical Institute IEl, 28 M. Pożaryskiego St., 04-703 Warsaw, Poland
Bibliografia
  • [1] Ch. Apneseth, D. Dzung, S. Kjesbu, G. Scheible, and W. Zimmermann, “Introduction wireless proximity switches”, ABB Review 4, 42–49 (2002).
  • [2] A. Esser and H.Ch. Skudelny, “A new approach to power supply for robots”, IEEE Trans. on Ind. Applications 27 (5), 872–875 (1991).
  • [3] J. Hirai, T.W. Kim, and A. Kawamura, “Study on intelligent battery charging using inductive transmission of power and information”, IEEE Trans. on Power Electronics 15, 2, 335–344 (2000).
  • [4] M. Jufer, “Electric drive system for automatic guided vehicles using contact-free energy transmission”, Electrotechnical Review 84 (9), 35–39 (2008), (in Polish).
  • [5] J. Lastowiecki and P. Staszewski, “Sliding transformer with long magnetic circuit for contactless electrical energy delivery to mobile receivers, IEEE Trans. on Industrial Electronics 53, 6, 1943–1948 (2006).
  • [6] J.T. Matysik, “A new method of integration control with instantaneous current monitoring for class D”, IEEE Trans. on Industrial Electronics 53, 5, 1561–1576 (2006).
  • [7] R. Mecke and C. Rathage, “High frequency resonant converter for contactless energy transmission over large air gap”, Proc. IEEE-PESC 1, 1737–1743 (2004).
  • [8] R. Miśkiewicz and A. Moradewicz, “Contactless power supply for notebooks”, Electrotechnical Review 85 (3), 8–14 (2009), (in Polish).
  • [9] A. Moradewicz, “Contactless energy transmission system with rotatable transformer – modeling, analyze and design”, PhDThesis, Electrotechnical Institute (IEl), Warsaw, Poland, 2008.
  • [10] A. Moradewicz, “Study of wireless energy transmission systems using inductive coupling”, Proc. Int. Conf. PELINCEC, CD-ROM (2005).
  • [11] A. Moradewicz and M.P. Kazmierkowski, “Resonant converter based contactless power supply for robots and manipulators”, J. Automation, Mobile Robotics & Intelligent Systems 2 (3), 20–25 (2008).
  • [12] K. O’Brien, G. Scheible, and H. Gueldner, “Analysis of wireless power supplies for industrial automation systems”, Proc. IEEE Industrial Electronics Conf. IECON, CD-ROM (2003).
  • [13] Ch-S. Wang, O.H. Stielau, and G.A. Covic, “Design considerations for contactless electric vehicle battery charger”, IEEE Trans. on Industrial Electronics 52 (5), 1308–1313 (2005).
  • [14] Z. Chen, X. Zhang, and J. Pan, “An integrated inverter for a single-phase single-stage grid connected PV system based on Z-source”, Bull. Pol Ac.: Tech. 55 (3), 263–272 (2007).
  • [15] Z. Kaczmarczyk, “A novel phase-shift full-bridge converter with voltage-doubler and decoupling integrated magnetics in PV system”, Bull. Pol Ac.: Tech. 56 (3), 285–293 (2008).
  • [16] W. Erickson, Fundamentals of Power Electronics, Kluwer Academic Publisher, New York, 1999.
  • [17] Y. Jiang, Z. Chen, J. Pan, X. I. Zhao, and P. Lee, “A novel phase-shift full-bridge converter with voltage-doubler and decoupling integrated magnetics in PV system”, Bull. Pol Ac.: Tech. 56 (3), 285–293 (2008).
  • [18] P. Antoniewicz and M.P. Kazmierkowski, “Predictive direct power control of three-phase boost rectifier”, Bull. Pol Ac.: Tech. 54 (2), 447–454 (2006).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG8-0018-0010
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