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P. Suskis, A. Andreiciks, I. Steiks, O. Krievs and J. Kleperis

, 2845-2854. 6. Mummadi, V. (2011). Design of Robust Digital PID Controller for H-Bridge Soft- Switching Boost Converter, Industrial Electronics, IEEE Transactions, 58 (7), 2883-2897. 7. Jingquan, Chen, Maksimovic, D., & Erickson, R. (2011). Buck-boost PWM converters having two independently controlled switches. Power Electronics Specialists Conference, PESC 2001 IEEE 32nd Annual, 2, 736-741. 8. US Department of Energy (2006) Planned Program Activities for 2005 - 2015, website address (May 2012): www1.eere

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W. Janke

pulse-modulated DC-DC converters. Part II. Models based on the separation of variables”, Archives of Electrical Engineering 61 (4), 633-654 (2012). [18] W. Janke, M. Walczak, and M. Bączek, “Input and output characteristics of BUCK and BOOST voltage converters with parasitic resistances taken into account”, Electrical Review (2012), (to be published), (in Polish). [19] W. Janke, M. Walczak, and M. Bączek, “Output characteristics of step-down (Buck) power converter”, Bull. Pol. Ac.:Tech . 60 (4), 751-756 (2012). [20

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Janis Zakis, Dmitri Vinnikov, Indrek Roasto and Tanel Jalakas

References Vinnikov, D.; Roasto, I.; Zakis, J.; Strzelecki, R. "New Step-Up DC/DC Converter for Fuel Cell Powered Distributed Generation Systems: Some Design Guidelines", in journal "Electrical Review" ISSN 0033-2097, to be published, 2010. Yuan Li; Anderson, J.; Peng, F. Z.; Dichen Liu, "Quasi-Z-Source Inverter for Photovoltaic Power Generation Systems," Applied Power Electronics Conference and Exposition, 2009. APEC 2009. Twenty-Fourth Annual IEEE, pp. 918-924, 15-19 Feb. 2009

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P. Suskis and I. Rankis

References Zakis, J., Rankis, I., & Vinnikov, D. (2011). Analysis of operating modes of step-up DC/DC converter with a commutating LC-filter. 1 , 87-92. Palma, L., Todorovic, M. H., & Enjeti, P. (2005). A high gain transformer-less DC-DC converter for fuel-cell applications. Power Electronics Specialists Conf. PESC '05, IEEE, 36 , 2514-2520. Kim, P., Choi, S., & Kim, J. (2010). An inductorless asymmetrical ZVS full bridge converter for step-up applications with wide input voltage

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Marcin Walczak

Circuits for Averaged Description of DC-DC Switch-Mode Power Converters Based on Separation of Variables Approach, Bulletin of the Polish Academy of Sciences, vol. 61, no. 3, pp. 711-723 (2013). [8] Yajun L., Xinquan L., Qiang Y., Bing Y., High efficiency and low electromagnetic interference boost DC-DC converter, Journal of Semiconductors, vol. 35, no. 4, pp. 045002-1 - 040002-8 (2014). [9] Janke W., Walczak M., Comparison of transient states in step-down power converter (BUCK) in continuous and discontinuous conduction mode, Bulletin of

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J. Dawidziuk

in high-current high-power inductors', Proc. IEEE IECON 1, 774-778 (2009). W. Li. and X. He, "An interleaved winding-coupled boost converter with passive lossless clamp circuits', IEEE Trans. on Power Electronics 22 (4), 1499-1507 (2007). W. Li. and X. He, "A family of interleaved DC-DC converters deduced from a basic cell with winding-cross-coupled inductors (WCCIs) for high step-up or step-down conversions', IEEE Trans. on Power Electronics 23 (4), 1791-1801 (2008). K. Hirachi, M

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C. Prasanna Kumar and N. Venugopal

low-stress buck-boost converter for universalinput PPC applications. In: Proceedings of the 16th Annual IEEE Applied Power Electronics Conference and Exposition, Anaheim, USA, 4-8 March, 2001 Everts, J., Van den Keybus, J., Krismer, F., Driesen, J. and Kolar, J. W. (2012). Switching control strategy for full ZVS soft-switching operation of a dual active bridge AC/DC converter. In: Proceedings of the 27th Annual IEEE Applied Power Electronics Conference and Exposition, Orlando, USA, 5-9th February 2012. Freitas, A. A. A., Tofoli, F. L

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Govindasamy Sundar, Narashiman Karthick and Sasi Rama Reddy

References [1] LIANG, T. J.—CHEN, S. M.—YANG, L. S.—CHEN, J. F.— IOINOVICI, A.: Ultra Large Gain Step-Up Switched-Capacitor dc-dc Converter with Coupled Inductor for Alternative Sources of Energy, IEEE Trans. Circuits Syst. 59 No. 4 (Apr 2012). [2] WAI, R. J.—LIN, C. Y.—RDUAN,. Y.—CHANG, Y. R.: High-Efficiency dc-dc Converter with High Voltage Gain and Reduced Switch Stress, IEEE Trans. Ind. Electron. 54 No. 1 (Feb 2007), 354–364. [3] PARK, K. B.—MOON, G. W.—YOUN, M. J.: Nonisolated High Step-Up Boost Converter Integrated with Sepic Converter, IEEE

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Janis Zakis, Ivars Rankis and Liisa Liivik

References [1] Yuan Li; Anderson, J.; Peng, F.Z.; Dichen Liu, "Quasi-Z-Source Inverter for Photovoltaic Power Generation Systems", Twenty-Fourth Annual IEEE Applied Power Electronics Conference and Exposition APEC 2009, pp. 918-924, 15-19 Feb. 2009. [2] Vinnikov, D.; Roasto, I.; Zakis, J.; Strzelecki, R.: New Step-Up DC/DC Converter for Fuel Cell Powered Distributed Generation Systems: Some Design Guidelines", in journal “Electrical Review” ISSN 0033-2097, Vol. 86., Nr 8., 2010, pp. 245-252. [3] Zakis, J

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Dmitri Vinnikov, Oleksandr Husev and Indrek Roasto

.; Strzelecki, R., Adamowicz, M., "Two-Stage Quasi-Z-Source Network Based Step-Up DC/DC Converter", in Proc. of IEEE International Symposium on Industrial Electronics ISIE'2010, pp. 1143-1148, July 4-7, 2010. Vinnikov, D.; Roasto, I., "Impact of Component Losses on the Voltage Boost Properties and Efficiency of the qZS-Converter Family", in Proc. 7th International Conference-Workshop Compatibility and Power Electronics (CPE'2011) , pp. 303-308, 1-3 June 2011.