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A Simple Boost Shoot through Control for Single phase Quasi ZSI DC-DC Converters Based on Voltage Doubler Rectifier

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Warianty tytułu
PL
Proste sterowanie przekształtnika DC-DC typu ZSI bazujące na podwójnym prostowaniu napięcia
Języki publikacji
EN
Abstrakty
EN
The Z-source inverters are recent topological options proposed for buck–boost energy conversion with a number of possible voltage- and current-type circuit. This paper presents new step-up DC-DC converter topologies with improved efficiency, nearly twofold increased gain, over twofold boost factor and reduced ripple free output. The topology contains quasi ZSI (Impedance Source Inverter) which has one diode, two capacitors, two inductors are used to maintain continuous current on the primary side for reducing energy losses in the output, a single phase isolation transformer, and a voltage doubler rectifier (VDR). There are two operating modes shoot-through (ST) and non-shoot through (NST) modes. For controlling quasi ZSI (impedance source inverter), Pulse Width Modulation (PWM) with duty cycle ratio control method is used. By implementing the Simple boost control method of shoot- through technique is achieved in quasi ZSI (impedance source inverter), voltage boost factor and component stresses are considerably reduced when compared to the conventional method.
PL
W artykule zaprezentowano nową topologię przekształtnika DC-DC o zwiększonej skuteczności, zmniejszonych tętnieniach. Zastosowano dwa tryby pracy: shoot-through ST i non shoo through (NST). W układzie zastosowano podwójny układ prostowania VDR. Do sterowania przekształtnika ZSI wykorzystano układ PWM.
Rocznik
Strony
242--246
Opis fizyczny
Bibliogr. 17 poz., rys., tab., wykr.
Twórcy
  • EEE department, UCE-Ariyalur, Anna University-Chennai, INDIA
  • Anna University- Chennai, India
autor
  • Petrochemical Department, UCETrichirappalli, Anna University-Chennai, India
Bibliografia
  • [1] F.Z.Peng, “Z source Inverter”, IEEE Trans. On Industrial Power Electronics., vol. 39, no.2, pp. 501–510, Mar/Apr 2003.
  • [2] F.Z.peng and Miaosen Shen Zhaoming, “Maximum Boost Control of the Z Source Inverter”, in the proc. of IEEE PSEC 2004.
  • [3] P.C. Loh; D.M.Vilathgamu; Y.S. Lai : G.T. Chua; Y.W.Li, “ Pulse Width Modulation of Z source Inverter” , IEEE Trans. on Power Electronics., vol. 21, no.6, pp. 1346–1355, Nov2005.
  • [4] Anderson, J.; Peng, F.Z; Dichen Liu, “Four quasi – Z source inverters”, in Proc. of IEEE power Electronics Specialists Conferences PESC’2008, pp.2743-2749, 15-19 June 2008.
  • [5] Yuan Li; Anderson, J.; Peng, F.Z; Dichen Liu, “ Quasi Z source inverter for photovoltaic power generation”, in Proc. of IEEE Applied power Electronics Conferences and Exposition APEC’2009,pp.918-924,15-19 Feb 2009.
  • [6] Jong-Hyoung Park; Heung-Geun kim; Eui-cheol Nho; Tae-Won Chun; jaeo Choi, “Grid connected PV system Using a Quasi – Z source inverters”, in Proc. of IEEE Applied Power Electronics Conferences and Exposition APEC’2009, pp.925-929,15-19 Feb 2009.
  • [7] Ditri Vinnikov; Indrek Roasto; Ryszard Strzelecki, Marek Adamowicz “Two Stage Network Based Step Up DC/DC Converter”, in Proc of IEEE, PP.1143-1148, 2010.
  • [8] Indrek Roasto; Dmitri Vinnikov; Tanel Jalakas; Janish Zakis; Silver Ott, “Experimental Study of Shoot Through Control Methods for qZSI Based DC/DC Converters”, in Proc of IEE International symposium on Power Electronics SPEEDAM 2010 ,PP.29-34,2010
  • [9] Dmitri Vinnikov; Ryszard Strzelecki; Marek Adamowicz , “Performance Improvement Method for the Voltage-Fed qZSI with Continuous Input current”, in Proc of IEEE PP.1459-1464, 2010.
  • [10] Dmitri vinnikov; Indrek Roasto, “ Quasi –Z-Source – Based isolated DC/DC Converters for Distributed Power Generation” IEEE Trans. on Power Electronics., vol. 58, No.1, pp. 192–201, Jan 2011.
  • [11] Wei Qian; Fang Zheng peng; Honnyong , “Trans-Z-Source Inverters” , IEEE Trans. Power Electronics., vol. 26, No.12, pp. 3453–3463, Dec 2011.
  • [12] Wensong Yu; Jih Sheng Lai; Wei –Han Lai; Hongmei wan, “ Hybrid Resonant and PWM Converters with High Efficiency and Full Soft switching Range” , IEEE Trans. On Power Electronics. vol. 27, No.12, pp. 4925–4933, Dec 2012.
  • [13] Quoc-Nam Trinh and Hong-Hee Lee, A New Z-Source Inverter Topology with High Voltage Boost Ability”, Journal of Electrical Engineering & Technology Vol. 7, No. 5, pp. 714-723, 2012
  • [14] Ding Li; Poh Chiang; Miao Zhu; Feng Gao; Frede Blaabjerg, “ Generalized Multicell Switched- Inductor and Switched Capacitor Z Source Inverters” , IEEE Trans. On Power Electronics. vol. 28, No.2, pp. 837–848, Feb-2013.
  • [15] H.bu-Rub; A.Iqbal; S.K.Moin Ahmes, F.Z.Peng; Y.Li ; G.Baoming,“ Quasi Z source inverter based photovoltaic Generation with maximum power tracking control using ANFIS”, IEEE Trans. On Sustainable Energy2012.
  • [16] Minh-Khai Nguyen; Young-Cheol; Sung-Jun Park, “Improved Trans Z Source Inverter with Continuous Input Current and Boost Inversion Capacity”, IEEE Trans. on Power Electronics. vol. 28, No.10, pp. 4500–4510, Oct-2013.
  • [17] N.Shobanadevi, Dr.V.Krishnamurty, Dr. N. Stalin, “ A FB Hybrid Resonant Boost DC-DC Converter with ZVC Switching”, International Journal of Scientific and Research Publications, Volume 3, Issue 6, pp.1-6 , June 2013.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-515dd978-5db4-4bfc-b7d6-2a37cd36e17b
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