A Review on Boost Invertor

Authors(2) :-Prof. Ankita Kosti, Pramila Swami

Nanogrids are renewable energy based distribution system suitable for low power household applications. This paper focuses on DC nanogrid which is supplied by Solar photovoltaic. Nanogrids are considered building cells of a Microgrid. A survey of different types of DC to DC Boost converters used in Nanogrid is presented in this paper. The topologies of some of the configurations of Boost converter are reviewed. This paper also highlights the advantages and disadvantages of all the reviewed converters.

Authors and Affiliations

Prof. Ankita Kosti
Shri Ram Institute of Technology, Jabalpur, Madhya Pradesh, India
Pramila Swami
Shri Ram Institute of Technology, Jabalpur, Madhya Pradesh, India

BHDC, CFSI, DC to DC Boost Converter, IBC, Nanogrid, QBC, SBI, SEPIC, Solar Photovoltaic, ZSI

  1. Appelbaum J. Advantage of boost vs. buck topology for MPPT in photovoltaic systems. Proceedings of 19th Con- vention of Electrical and Electronics Engineers in Israel; 2015.
  2. Ahmed M, Ami U, Qureshi SA, Ahmed Z. Implementa- tion of nanogrids for future power system. Sci Int. 2014; 27(1):133–9. ISSN: 1013-5316.
  3. Schonberger J, Duke R, Round SD. DC-bus signalling: A dis- tributed control strategy for a hybrid renewable Nanogrid. IEEE Trans Ind Electron. 2014 Oct; 53(5):1451–9.
  4. Nordman B. Nanogrids: Evolving our electricity systems from the bottom up. Darnell Green Building Power Forum; 2013 May.
  5. Bryan J, R. Duke R, Round S. Decentralised Control of a Nanogrid. Canterbury: Department of Electrical and Com- puter Engineering; 2015.
  6. Teleke S, Oehlerking L, Hong M. Nanogrids with energy storage for future electricity grids. IEEE PES T&D Confer- ence and Exposition; 2014 Apr 14-17; Chicago, IL, USA; p. 1–5.
  7. Lee P, Lee Y, Cheng KW, Liu X-C. Steady state analysis of interleaved boost converter with coupled inductors. IEEE Trans on Industrial Electronics. 2012 Aug; 47(4):787–95.
  8. Veerachary M, Senjyu T, Uezato K. Maximum power point tracking of coupled inductor interleaved boost converter supplied PV system. IEEE Proceedings-Electric Power Applications. 2003;150(1):71–80.
  9. Tattiwong K, Bunlaksananusorn C. Analysis design and experimental verification of quadratic boost converter. IEEE Region 10 Conference; 2014 Oct 22-25; Bangkok. p. 1–6.
  10. Peng FZ. Z-Source Inverter. IEEE Trans on Industry Appli- cations. 2003 Mar/Apr; 39(2):504–11.
  11. Adda R, Ray O, Mishra S, Joshi A. Implementation and control of switched boost inverter for DC nanogrid appli- cations. IEEE Energy Conversion Congress and Exposition (ECCE); 2012 Sep 15-20; Raleigh, NC. p. 3811–8.
  12. Adda R, Mishra S, Joshi A. A PWM control strategy for switched boost inverter. Proceedings IEEE ECCE; 2011 Sep; Phoenix, AZ, USA; p. 991–6.
  13. Adda, R, Ray O, Mishra S, Joshi A. Synchronous reference frame based control of switched boost inverter for stand- alone DC nanogrid applications. IEEE Trans on Power Elec- tronics. 2012; 28(3):1219–33.
  14. Adda R, Ray O, Mishra S, Joshi A. DSP based PWM control of switched boost inverter for DC nanogrid applications. 38th Annual Conference on IEEE Industrial Electronics Society; 2012 Oct 25-28; Montreal, QC; p. 5285–90.
  15. Nag SS, Adda R, Ray O, Mishra S. Current fed switched inverter based hybrid topology for DC nanogrid application. 39th Annual Conference of the IEEE; 2013 Nov 10-13; Vienna; P. 7146–51.
  16. El Khateb AH, Abd Rahim N, Selvaraj J. Fuzzy logic control approach of a maximum power point employing SEPIC con- verter for standalone photovoltaic system. Procedia Envi- ronmental Sciences. 2013; 17:529–36.
  17. Venkatanarayanan S, Saravanan M. Design and implemen- tation of SEPIC integrated KY converter for SLIT-LAMP. International Journal of Applied Engineering Research. 2015.
  18. Dawidziuk J. Review and comparison of high efficiency high power boost DC/DC converters for photovoltaic applica- tions. Bulletin of the Polish Academy of Sciences Technical Sciences. 2011; 59(4).
  19. Petit P, Aillerie M, Sawicki JP, Charles JP. Push-pull con- verter for high efficiency photovoltaic Conversion. Energy Procedia. 2012; 18:1583–92
  20. Gu B, Dominic J, Lai JS, Zhao Z, Liu C. High boost ratio hybrid transformer DC-DC converter for photovoltaic module applications. IEEE Transactions on Power Electron- ics; Orlando, FL; 2012 Feb 5-9. p. 598–606.
  21. Ray O, Mishra S. Boost-Derived hybrid converter with simultaneous DC and AC outputs. IEEE Transactions on Industry Applications. 2014 Mar/Apr; 50(2).
  22. Ray O, Mishra S. A modified boost topology with simulta- neous AC and DC load. 2012 IEEE Energy Conversion Con- gress and Exposition (ECCE); 2012 Sep 15-20; Raleigh, NC. p. 2454–9.
  23. en.wikipedia.org

Publication Details

Published in : Volume 3 | Issue 1 | January-February 2017
Date of Publication : 2017-02-28
License:  This work is licensed under a Creative Commons Attribution 4.0 International License.
Page(s) : 63-68
Manuscript Number : IJSRSET173116
Publisher : Technoscience Academy

Print ISSN : 2395-1990, Online ISSN : 2394-4099

Cite This Article :

Prof. Ankita Kosti, Pramila Swami, " A Review on Boost Invertor, International Journal of Scientific Research in Science, Engineering and Technology(IJSRSET), Print ISSN : 2395-1990, Online ISSN : 2394-4099, Volume 3, Issue 1, pp.63-68, January-February-2017.
Journal URL : http://ijsrset.com/IJSRSET173116

Article Preview

Follow Us

Contact Us