High efficiency high step-up DC/DC converters - a review

Journal title

Bulletin of the Polish Academy of Sciences Technical Sciences






No 4


Divisions of PAS

Nauki Techniczne






DOI: 10.2478/v10175-011-0059-1 ; ISSN 2300-1917


Bulletin of the Polish Academy of Sciences: Technical Sciences; 2011; 59; No 4; 475-483


Blaabjerg F. (2010), Trends in power electronics and control of renewable energy systems, null, 1. ; EPIA, "Global market outlook for photovoltaics until 2013', <i>Eur. Photovoltaic Industry Association</i> 1, CD-ROM (2010). ; IEEE Standard for Interconnecting Distributed Resources with Electric Power Systems, IEEE Std 1547, CD-ROM (2003). ; Enslin J. (2008), The role of power electronics and storage to increase penetration levels of renewable power, null. ; Calais M. (1996), Multilevel converters for singlephase grid connected photovoltaic systems-an overview', Int. Sympos. on Indust. Electronics (ISIE) IEEE, 1, 224. ; Chunliu C. (2009), Research of an interleaved boost converter with four interleaved boost convert cells', null, 1, 396. ; Park S.-H. (2010), Analysis and design of a soft-switching boost converter with an hi-bridge auxiliary resonant circuit', Trans. on Power Electronics IEEE, 1, 2142, ; E. da Silva (2001), An improved boost PWM soft-singleswitched converter with low voltage and current stresses', Trans. on Indust. Electronics IEEE, 1, 1174, ; Wai R. (2005), High-efficiency DC/DC converter with high voltage gain', IEEE Proc. Electric Power Applications IEEE, 1, 793, ; Yu W. (2009), High efficiency converter with charge pump and coupled inductor for wide input photovoltaic AC module applications', Energy Conversion Congress and Exposition (ECCE) IEEE, 1, 3895. ; Li W. (2010), Interleaved converter with voltage multiplier cell for high step-up and high-efficiency conversion', Trans. on Power Electronics IEEE, 1, 2397, ; Li W. (2009), A review of nonisolated high step-up dc/dc converters in renewable energy applications', null, 1, 364. ; Qian W. (2011), A multilevel DC/DC converter with high voltage gain and reduced component rating and count, null, 1, 1146. ; Esram T. (2007), Comparison of photovoltaic array maximum power point tracking techniques', Trans. on Energy Conversion IEEE, 1, 439, ; Zhao Q. (2003), High-efficiency, high step-up DCDC converters', Trans. on Power Electronics IEEE, 1, 65, ; Zhao Y. (2011), Analysis, design, and experimentation of an isolated ZVT boost converter with coupled inductors', Trans. on Power Electronics IEEE, 1, 541, ; Gertmar L. (2005), On DC Injection to AC grids from distributed generation, null. ; Li Q. (2008), A review of the single phase photovoltaic module integrated converter topologies with three different DC link configurations', Trans. on Power Electronics IEEE, 1, 1320. ; Kwon J.-M. (2009), High-efficiency module-integrated photovoltaic power conditioning system', IET J. IEEE, 1, 410. ; Delshad M. (2008), High step-up zero-voltage switching current-fed isolated pulse width modulation DC-DC converter', IET J. IEEE, 1, 316. ; Itoher A. (1996), A new panel-integratable inverter concept for grid-connected photovoltaic systems', Int. Symp. on Indust. Electronics (ISIE) IEEE, 1, 827. ; Li Q. (2002), An analysis of a resonant half bridge dual converter operating in continuous and discontinuous modes', null, 1313. ; Li D. (2011), A high step-up current fed multi-resonant converter with output voltage doubler, null. ; Yuan B. (2010), A high efficiency current fed multi-resonant converter for high step-up power conversion in renewable energy harvesting', Energy Conversion Congress and Exposition (ECCE) IEEE, 1, 2637, ; Dick C. (2010), A high-efficient llcc series-parallel resonant converter, null. ; Choi W. (2009), High stepup dc/dc converter with high efficiency for photovoltaic module integrated converter systems, null. ; Li W. (2010), A non-isolated high step-up converter with built-in transformer derived from its isolated counterpart, null, 3173. ; Blaabjerg F. (2005), A review of single-phase grid-connected inverters for photovoltaic modules', Trans. on Indus. Applications IEEE, 1, 1292. ; Smolenski R. (2009), Selected conducted electromagnetic interference issues in distributed power systems, Bull. Pol. Ac.: Tech, 57, 4, 383. ; Pirog S. (2009), Power electronic converter for photovoltaic systems with the use of FPGA-based real-time modeling of single phase grid-connected systems, Bull. Pol. Ac.: Tech, 57, 4, 345. ; Kazimierczuk K. (2008), Pulse-Width Modulated DC-DC Power Converters, ; Kim E.-H. (2009), High step-up resonant push-pull converter with high efficiency', IET J, IEEE, 1, 79.