CFP last date
01 April 2024
Reseach Article

Comparative Study of Hard and Soft Switched Full Bridge DC-DC Converter for Photovoltaic Application

by Shamkumar B. Chavan, Mahesh S. Chavan
Communications on Applied Electronics
Foundation of Computer Science (FCS), NY, USA
Volume 4 - Number 7
Year of Publication: 2016
Authors: Shamkumar B. Chavan, Mahesh S. Chavan
10.5120/cae2016652134

Shamkumar B. Chavan, Mahesh S. Chavan . Comparative Study of Hard and Soft Switched Full Bridge DC-DC Converter for Photovoltaic Application. Communications on Applied Electronics. 4, 7 ( March 2016), 26-29. DOI=10.5120/cae2016652134

@article{ 10.5120/cae2016652134,
author = { Shamkumar B. Chavan, Mahesh S. Chavan },
title = { Comparative Study of Hard and Soft Switched Full Bridge DC-DC Converter for Photovoltaic Application },
journal = { Communications on Applied Electronics },
issue_date = { March 2016 },
volume = { 4 },
number = { 7 },
month = { March },
year = { 2016 },
issn = { 2394-4714 },
pages = { 26-29 },
numpages = {9},
url = { https://www.caeaccess.org/archives/volume4/number7/567-2016652134/ },
doi = { 10.5120/cae2016652134 },
publisher = {Foundation of Computer Science (FCS), NY, USA},
address = {New York, USA}
}
%0 Journal Article
%1 2023-09-04T19:54:15.938833+05:30
%A Shamkumar B. Chavan
%A Mahesh S. Chavan
%T Comparative Study of Hard and Soft Switched Full Bridge DC-DC Converter for Photovoltaic Application
%J Communications on Applied Electronics
%@ 2394-4714
%V 4
%N 7
%P 26-29
%D 2016
%I Foundation of Computer Science (FCS), NY, USA
Abstract

This paper aims to compare the performance of two control schemes viz. hard switched and phase shifted control scheme for full bridge DC-DC converter used in photovoltaic application .The proposed converters are designed for 650W photovoltaic input power. Voltage and current waveforms at various test points like across IGBT, transformer primary and secondary, output etc. are compared and results are presented. From results it can be seen that in phase shift control simultaneous transition of voltage across IGBT and current through IGBT is avoided hence reduction in switching losses , dv/dt, di/dt effects and EMI effects can be achieved. At higher switching frequencies phase shift control scheme is meritorious over hard switched control scheme.

References
  1. J.A.Sabate, V. Vlatkovic, R.B.Ridley, F.C. Lee, B.H.Chao, 1990, Design considerations for high voltage high power full bridge zero voltage switched PWM converter, IEEE.
  2. A.K.Rathore, 2008, High frequency transformer isolated power conditioning system for fuel cells to utility interface, Ph.D. Thesis, University of Victoriya.
  3. Y.Jiang, Z.Chen, J.Pan, X.I.Zhao, P. Lee, 2008, A novel phase shift full bridge converter with voltage doubler and decoupling integrated magnetics in PV system, Bulletin of Polish academy of sciences, Technical sciences, 56(3), pp- 285-293.
  4. G.Ramya, R.Ramaprabha, 2014, Performance enhancement of photovoltaic system using soft switched multi-phase boost converter, J. Electrical systems, 10(4) , pp-381-391.
  5. Daisuke Tsukiyama, Y.Fukuda, S.Miyake, 2011, A new 98% soft switching full bridge DC-DC converter based on secondary side LC resonant principle for PV generation systems”, IEEE PEDS 2011, Singapore, pp-1112-1119.
  6. J. Lu, D.Butler, 2010, High frequency transformers for DC/DC converter used in Solar PV system”, Journal of Energy and Power Engineering, 4(1) ,David Publishing, 1-6.
  7. S.B.Chavan, M.S.Chavan, 2014, Power switch faults, diagnosis and tolerant schemes in converters of photovoltaic systems- A review, International journal of advanced research in electrical, electronics and instrumentation engineering, 3(9), pp- 11729-11737.
  8. Shaoyang Yang, Angus Bryant, Philip Maybap, Dawei Xing, Peter Tanve, 2011, An industry based survey of reliability in power electronics converters”,IEEE transactions on industry applications, 47(3), pp.1441-1451.
  9. S.B.Chavan, M.S.Chavan, 2014, A model based approach for fault diagnosis in converter of photovoltaic system, IEEE global conference on wireless computing and networking, pp.-112-115.
  10. Hugo Callega, Freddy Chan, Israel Uribe,2007, Reliability oriented assessment of a DC/DC converter for photovoltaic applications, IEEE Power Electronics Specialists Conference, pp. 1522-1527.
  11. Freddy Chan, Hugo CallejaGjumlich,2008, Reliability analysis of the power electronics stages in grid connected PV systems, Cientifica, 12(3), pp.149-155.
  12. M. Kazimierczuk, Pulse width modulated DC-DC power converters, Wiley publications, pp-325-360.
  13. B. Cougo, J. Kolar, 2012, Integration of leakage inductance in tape wound core transformers for dual active bridge converters, International conference of integrated power electronics systems, Germany.
  14. A. Abdul Razzak, S. Taib, I. Daut,2005, Design and development of high frequency high power transformer for renewable energy application, International conference on robotics, vision, information and signal processing, pp. 375-379.
Index Terms

Computer Science
Information Sciences

Keywords

phase shift full bridge DC-DC converter; phase shift v/s hard switched control; phase shifted full bridge in photovoltaic application