Design and Simulation of New Efficient Bridgeless AC- DC CUK Rectifier for PFC Application

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Reseach Article

Design and Simulation of New Efficient Bridgeless AC- DC CUK Rectifier for PFC Application

Published on December 2013 by Thomas Mathew . T, C. Naresh

International Conference on Innovations In Intelligent Instrumentation, Optimization and Electrical Sciences

Foundation of Computer Science USA

ICIIIOES - Number 12

December 2013

Authors: Thomas Mathew . T, C. Naresh

4c6f0be8-4537-4176-92da-665c6708fffd

Thomas Mathew . T, C. Naresh . Design and Simulation of New Efficient Bridgeless AC- DC CUK Rectifier for PFC Application. International Conference on Innovations In Intelligent Instrumentation, Optimization and Electrical Sciences. ICIIIOES, 12 (December 2013), 28-32.

@article{

author = { Thomas Mathew . T, C. Naresh },

title = { Design and Simulation of New Efficient Bridgeless AC- DC CUK Rectifier for PFC Application },

journal = { International Conference on Innovations In Intelligent Instrumentation, Optimization and Electrical Sciences },

issue_date = { December 2013 },

volume = { ICIIIOES },

number = { 12 },

month = { December },

year = { 2013 },

issn = 0975-8887,

pages = { 28-32 },

numpages = 5,

url = { /proceedings/iciiioes/number12/14367-1464/ },

publisher = {Foundation of Computer Science (FCS), NY, USA},

address = {New York, USA}

}

%0 Proceeding Article

%1 International Conference on Innovations In Intelligent Instrumentation, Optimization and Electrical Sciences

%A Thomas Mathew . T

%A C. Naresh

%T Design and Simulation of New Efficient Bridgeless AC- DC CUK Rectifier for PFC Application

%J International Conference on Innovations In Intelligent Instrumentation, Optimization and Electrical Sciences

%@ 0975-8887

%V ICIIIOES

%N 12

%P 28-32

%D 2013

%I International Journal of Computer Applications

Abstract

This project proposes a new AC-DC bridgeless CUK rectifier. The new bridgeless single-phase AC–DC power factor correction (PFC) rectifiers based on CUK topology are proposed. The absence of an input diode bridge and the presence of only two semiconductor switches in the current flowing path during each interval of the switching cycle result in less conduction losses compared to the conventional CUK power factor correction (PFC) rectifier. The proposed topology is designed to work in discontinuous conduction mode (DCM) to achieve almost a unity power factor and low total harmonic distortion (THD) of the input current. The DCM operation gives additional advantages such as zero-current turn-ON in the power switches, zero-current turn-OFF in the output diode, and simple control circuitry. The circuit is being simulated using MATLAB, the modes of operation are analyzed , the analysis of the circuit parameters will also be performed. The hardware implementation will also performed.

References

W. Choi, J. Kwon, E. Kim, J. Lee, and B. Kwon, "Bridgeless boost rectifier with low conduction losses and reduced diode reverse-recovery problems," IEEE Trans. Ind. Electron. , vol. 54, no. 2, pp. 769–780, Apr. 2007.
G. Moscho poulos and P. Kain, "A novel single-phase soft-switched rectifier with unity power factor and minimal component count," IEEE Trans. Ind. Electron. , vol. 51, no. 3, pp. 566–575, Jun. 2004.
R. -L. Lin and H. -M. Shih, "Piezoelectric transformer based current-source charge-pump power-factor-correction electronic ballast," IEEE Trans. Power Electron. , vol. 23, no. 3, pp. 1391–1400, May 2008.
S. Dwari and L. Parsa, "An efficient AC–DC step-up converter for low voltage energy harvesting," IEEE Trans. Power Electron. , vol. 25, no. 8, pp. 2188–2199, Aug. 2010.
Y. Jang and M. Jovanovic, "A bridgeless PFC boost rectifier with optimized magnetic utilization," IEEE Trans. Power Electron. , vol. 24, no. 1, pp. 85–93, Jan. 2009.
L. Huber, Y. Jang, and M. Jovanovic, "Performance evaluation of bridgeless PFC boost rectifiers," IEEE Trans. Power Electron. , vol. 23, no. 3, pp. 1381–1390, May 2008.
B. Su and Z. Lu, "An interleaved totem-pole boost bridgeless rectifier with reduced reverse-recovery problems for power factor correction," IEEE Trans. Power Electron. , vol. 25, no. 6, pp. 1406–1415, Jun. 2010.

Index Terms

Computer Science

Information Sciences

Keywords

Cuk Converter Dcm (discontinuous Conduction Mode) Power Factor Correction (pfc)