Analysis and Comparison of DC-DC Boost Converter and Interleaved DC-DC Boost Converter

Faraj, Karrar S.; Hussain, Jasim F.

doi:10.30684/etj.v38i5A.291

	Analysis and Comparison of DC-DC Boost Converter and Interleaved DC-DC Boost Converter
Engineering and Technology Journal
Article 1, Volume 38, 5A, 2020, Pages 622-635 PDF (686.88 K)
DOI: 10.30684/etj.v38i5A.291
Authors
Karrar S. Faraj¹; Jasim F. Hussain²
¹Electrical Engineering Department, University of Technology, Iraq.
²Department of Electrical Engineering, University of Technology, Iraq-Baghdad.
Abstract
The step-up converters are widespread use in many applications, including powered vehicles, photovoltaic systems, continuous power supplies, and fuel cell systems. The reliability, quality, maintainability, and reduction in size are the important requirements in the energy conversion process. Interleaving method is one of advisable solution for heavy-performance applications, its harmonious in circuit design by paralleling two or more identical converters. This paper investigates the comparison performance of a two-phase interleaved boost converter with the traditional boost converter. The investigation of validation performance was introduced through steady-state analysis and operation. The operation modes and mathematical analysis are presented. The interleaved boost converter improves low-voltage stress across the switches, low-input current ripple also improving the efficiency compared with a traditional boost converter. To validate the performance in terms of input and output ripple and values, the two converters were tested using MATLAB/SIMULINK. The results supported the mathematical analysis. The cancelation of ripple in input and output voltage is significantly detected. The ripple amplitude is reducing in IBC comparing with a traditional boost converter, and the ripple frequency is doubled. This tends to reduce output filter losses, and size.
Keywords
Boost converter; Interleaved Boost Converter; Continuous Current Mode; MPPT; Input Current ripple; Output Voltage ripple

References
[1] S. H. Elkelani Babaa, “High efficient interleaved boost converter with novel switch adaptive control in photovoltaic application,” Ph.D. Thesis, Electronic and Computer Eng. Dept., Univ. of Newcastle, Newcastle, England, 2013. [2] F. S. Garcia, J. A. Pomilio, and G. Spiazzi, “Modeling and control design of the interleaved double dual boost converter,” IEEE Transactions on Industrial Electronics, Vol. 60, No. 8, pp. 1292–1300, 2013. [3] K. C. Tseng, C. C. Huang, and W. Y. Shih, “A high step-up converter with a voltage multiplier module for a photovoltaic system,” IEEE Transactions on Power Electronics, Vol. 28, No. 6, pp. 3047–3057, 2013. [4] Y. Jang and M. M. Jovanovic, “Interleaved boost converter with intrinsic voltage-doubler characteristic for universal-line PFC front end,” IEEE Transactions on Power Electronics, Vol. 22, No.4, pp.1394-1401, 2007. [5] C. Liu, A. Johnson and J.S. Lai, “A novel three-phase high-power soft-switched DC-DC converter for low-voltage fuel cell applications,” IEEE Transactions on Industry Applications, Vol. 41, No. 6, pp. 1691-1697, 2005. [6] J. S. Anu Rahavi, T. Kanagapriya and Dr. R. Seyezhai, “Design and analysis of interleaved boost converter for renewable energy source,” International Conference on Computing, Electronics and Electrical Technologies, ICCEET, India, 2012. [7] M. Z. Hossain, N. A. Rahim and J. A. Selvaraja, “Recent progress and development on power DC-DC converter topology, control, design and applications: A review,” Renewable and Sustainable Energy Reviews, Vol. 81, No. 1, pp. 205-230, January 2018. [8] M.H. Rashid, “Power electronics, circuits, devices and applications,” Prentice Hall, 3rd edition, Amsterdam, 2011. [9] R.S. Mishra, N. Verma and S.D. Shukla, “Implementation of solar based PWM fed two phase interleaved boost converter,” International Conference on Communication, Control and Intelligent System, CCIS, Mathura, India, pp. 470-476, 2015. [10] D.J.S. Newlin, R. Ramalakshmi and Mr.S. Rajasekaran, “A performance comparison of interleaved boost converter and conventional boost converter for renewable energy application,” Proceedings of 2013 international conference on green high performance computing, ICGHPC, Nagercoil, India, pp. 1-6, 2013. [11] S.S. Mohammed and D. Devaraj, “Simulation of incremental conductance MPPT based two phase interleaved boost converter using MATLAB/Simulink,” IEEE international conference on electrical, computer and communication technologies, ICECCT, Coimbatore, India, pp. 1-6, 2015. [12] V. Michal, D. Cottin, and P. Arno, “Boost DC-DC converter nonlinearity and RHP-zero: survey of the control-to-output transfer function linearization methods,” Invited paper, in proc. of 21st IEEE int. conference Applied Electronics, ICAE21, Pilsen, Czech Republic, pp.1803-7232, 2016. [13] J. Chen, D. Maksimovic and R.W. Erickson “Analysis and design of a low-stress buck-boost converter in universal-input PFC applications,” IEEE Transactions on Power Electronics, Vol. 21, No. 2, pp.320-329, 2006.
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