Step-Up DC/DC Converter Based on Partial Power Processing

Ebrahim Salary; Mohammad Reza Banaei; Ali Ajami

Processing

Year 2015, Volume: 28 Issue: 4, 599 - 607, 09.09.2015

Ebrahim Salary Mohammad Reza Banaei Ali Ajami

Abstract

References

[1] Lin,B-R. and Chen, Ch-Ch., “Analysis of an Interleaved Resonant Converter for High Voltage and High Current Applications,” J Electr. Eng. Technol., 9(5): 1632-1642, (2014).
[2] Popovic-Gerber, J., Oliver, J. A., Cordero, N., Harder, T., Cobos, J. A., Hayes, M., O’Mathuna, S. C. and Prem, E., “Power electronics enabling efficient energy usage: Energy savings potential and technological challenges,” IEEE Trans. Power Electron., 27(5): 2338–2353, (May 2012).
[3] Shahin, A., Hinaje, M., Martin, J. P., Pierfederici, S., Rael, S. and Davat, B., “High voltage ratio dcdc converter for fuel-cell applications,” IEEE Trans. Ind. Electron., 57(12): 3944–3955, (2010).
[4] Wu, J-Ch. and Chou, Ch-W., “A Solar Power Generation System With a Seven-Level Inverter,” IEEE Trans. Power Electron., 29(7): 3454-3462, (2014).
[5] Krithiga, S. and Ammasai Gounden, N.,“ Investigations of an improved PV system topology using multilevel boost converter and line commutated inverter with solutions to grid issues,” Simulation Modelling Practice and Theory, 42: 147–159, (2014).
[6] Meneses, D., Blaabjerg, F., Garcia, O. and Cobos, J. A., “Review and comparison of step-up transformerless topologies for photovoltaic ACmodule application,” IEEE Trans. Power Electron., vol. 28, pp. 2649–2663, (2013).
[7] Hwu, K. I. and Peng, T. J., “High-voltage-boosting converter with charge pump capacitor and coupling inductor combined with buck–boost converter,” IET Power Electron., 7(1): 177-188, (2014).
[8] Leyva-Ramos, J., Ortiz-Lopez, M. G., DiazSaldierna, L.H. and Martinez-Cruz, M., “Average current controlled switching regulators with cascade boost converters,” IET Power Electron., 4(1):1–10, (2011).
[9] Rosas-Caro, J.C., Ramirez, J.M., Peng, F.Z. and Valderrabano, A., “A DC–DC multilevel boost converter,” IET Power Electron., 3: 129–137, (2010).
[10] Ismail, E. H., Al-Saffar, M. A. and Sabzali, A. J., “High conversion ratio DC–DC converters with reduced switch stress,” IEEE Trans. Circuits Syst. I, Reg. Papers, 55(7): 2139- 2151, (2008).
[11] El-Sayed Ahmed, M., Orabi, M. and Abdel Rahim, O. M., “Two-stage micro-grid inverter with highvoltage gain for photovoltaic applications,” IET Power Electron., 6(9),:1812-1821, (2013).
[12] Shenoy, P. S.,Kim,K. A.,Johnson, B. B. and Krein, P. T., “Differential power processing for increased energy production and reliability of photovoltaic systems,” IEEE Trans. Power Electron., 28(6): 2968–2979, (2013).
[13] Agamy, M.S., Harfman-Todorovic, M., Elasser, A.,Chi, S., Steigerwald, R. L., Sabate, J.A., Mc Cann, A.J., Zhang, L. andMueller, F. J., “An Efficient Partial Power Processing DC/DC Converter for Distributed PV Architectures,” IEEE Trans. Power Electron., 29(2), 674–686, (2014).
[14] Agamy, M., Harfman-Todorovic, M., Elasser, A., Sabate, J., Steigerwald, R., Jiang, Y. and Essa kiappan, S., “DC/DC converter topology assessment for large scale distributed photovoltaic plant architectures,” in Proc. Energy Convers. Conf. Expo.,: 764–769, (2011).
[15] Bazzi, A. M., Krein, P. T. and Kimball, J. W., “IGBT and diode loss estimation under hysteresis switching,” IEEE Trans. Power Electron., 27(3): 1044-1048, (2012).
[16] Kazimierczuk, M. K., “Pulse-width modulated DC-DC power converters,” (Wiley Press, 2008, 1st edn.), pp. 31–38.

Step-Up DC/DC Converter Based on Partial Power Processing

Year 2015, Volume: 28 Issue: 4, 599 - 607, 09.09.2015

Ebrahim Salary Mohammad Reza Banaei Ali Ajami

Abstract

This paper suggests a maiden topology of step-up dc/dc transformer-less converter on basis of the partial power processing concept which has been integrated with the classic boost converter structure. This converter has a high gain as compared to the conventional boost converter. The input dc power is directly connected to the output capacitors and load without being processed by the converter. Where-through, the voltage stress of semiconductors comes to be lower than output voltage. To verify and clarify the suggested converter, the experimental prototype has been presented along with relevant mathematical principles. To sum up, the MATLAB simulation results and the experimental results have transparently approved high efficiency of proposed converter as well as its feasibility.

Keywords

Boost ability, voltage stress, high gain, dc/dc converter

References

[1] Lin,B-R. and Chen, Ch-Ch., “Analysis of an Interleaved Resonant Converter for High Voltage and High Current Applications,” J Electr. Eng. Technol., 9(5): 1632-1642, (2014).
[2] Popovic-Gerber, J., Oliver, J. A., Cordero, N., Harder, T., Cobos, J. A., Hayes, M., O’Mathuna, S. C. and Prem, E., “Power electronics enabling efficient energy usage: Energy savings potential and technological challenges,” IEEE Trans. Power Electron., 27(5): 2338–2353, (May 2012).
[3] Shahin, A., Hinaje, M., Martin, J. P., Pierfederici, S., Rael, S. and Davat, B., “High voltage ratio dcdc converter for fuel-cell applications,” IEEE Trans. Ind. Electron., 57(12): 3944–3955, (2010).
[4] Wu, J-Ch. and Chou, Ch-W., “A Solar Power Generation System With a Seven-Level Inverter,” IEEE Trans. Power Electron., 29(7): 3454-3462, (2014).
[5] Krithiga, S. and Ammasai Gounden, N.,“ Investigations of an improved PV system topology using multilevel boost converter and line commutated inverter with solutions to grid issues,” Simulation Modelling Practice and Theory, 42: 147–159, (2014).
[6] Meneses, D., Blaabjerg, F., Garcia, O. and Cobos, J. A., “Review and comparison of step-up transformerless topologies for photovoltaic ACmodule application,” IEEE Trans. Power Electron., vol. 28, pp. 2649–2663, (2013).
[7] Hwu, K. I. and Peng, T. J., “High-voltage-boosting converter with charge pump capacitor and coupling inductor combined with buck–boost converter,” IET Power Electron., 7(1): 177-188, (2014).
[8] Leyva-Ramos, J., Ortiz-Lopez, M. G., DiazSaldierna, L.H. and Martinez-Cruz, M., “Average current controlled switching regulators with cascade boost converters,” IET Power Electron., 4(1):1–10, (2011).
[9] Rosas-Caro, J.C., Ramirez, J.M., Peng, F.Z. and Valderrabano, A., “A DC–DC multilevel boost converter,” IET Power Electron., 3: 129–137, (2010).
[10] Ismail, E. H., Al-Saffar, M. A. and Sabzali, A. J., “High conversion ratio DC–DC converters with reduced switch stress,” IEEE Trans. Circuits Syst. I, Reg. Papers, 55(7): 2139- 2151, (2008).
[11] El-Sayed Ahmed, M., Orabi, M. and Abdel Rahim, O. M., “Two-stage micro-grid inverter with highvoltage gain for photovoltaic applications,” IET Power Electron., 6(9),:1812-1821, (2013).
[12] Shenoy, P. S.,Kim,K. A.,Johnson, B. B. and Krein, P. T., “Differential power processing for increased energy production and reliability of photovoltaic systems,” IEEE Trans. Power Electron., 28(6): 2968–2979, (2013).
[13] Agamy, M.S., Harfman-Todorovic, M., Elasser, A.,Chi, S., Steigerwald, R. L., Sabate, J.A., Mc Cann, A.J., Zhang, L. andMueller, F. J., “An Efficient Partial Power Processing DC/DC Converter for Distributed PV Architectures,” IEEE Trans. Power Electron., 29(2), 674–686, (2014).
[14] Agamy, M., Harfman-Todorovic, M., Elasser, A., Sabate, J., Steigerwald, R., Jiang, Y. and Essa kiappan, S., “DC/DC converter topology assessment for large scale distributed photovoltaic plant architectures,” in Proc. Energy Convers. Conf. Expo.,: 764–769, (2011).
[15] Bazzi, A. M., Krein, P. T. and Kimball, J. W., “IGBT and diode loss estimation under hysteresis switching,” IEEE Trans. Power Electron., 27(3): 1044-1048, (2012).
[16] Kazimierczuk, M. K., “Pulse-width modulated DC-DC power converters,” (Wiley Press, 2008, 1st edn.), pp. 31–38.

There are 16 citations in total.

Details

Primary Language	English
Journal Section	Electrical & Electronics Engineering
Authors	Ebrahim Salary Mohammad Reza Banaei Ali Ajami
Publication Date	September 9, 2015
Published in Issue	Year 2015 Volume: 28 Issue: 4

Cite

APA	Salary, E., Banaei, M. R., & Ajami, A. (2015). Step-Up DC/DC Converter Based on Partial Power Processing. Gazi University Journal of Science, 28(4), 599-607.
AMA	Salary E, Banaei MR, Ajami A. Step-Up DC/DC Converter Based on Partial Power Processing. Gazi University Journal of Science. December 2015;28(4):599-607.
Chicago	Salary, Ebrahim, Mohammad Reza Banaei, and Ali Ajami. “Step-Up DC/DC Converter Based on Partial Power Processing”. Gazi University Journal of Science 28, no. 4 (December 2015): 599-607.
EndNote	Salary E, Banaei MR, Ajami A (December 1, 2015) Step-Up DC/DC Converter Based on Partial Power Processing. Gazi University Journal of Science 28 4 599–607.
IEEE	E. Salary, M. R. Banaei, and A. Ajami, “Step-Up DC/DC Converter Based on Partial Power Processing”, Gazi University Journal of Science, vol. 28, no. 4, pp. 599–607, 2015.
ISNAD	Salary, Ebrahim et al. “Step-Up DC/DC Converter Based on Partial Power Processing”. Gazi University Journal of Science 28/4 (December 2015), 599-607.
JAMA	Salary E, Banaei MR, Ajami A. Step-Up DC/DC Converter Based on Partial Power Processing. Gazi University Journal of Science. 2015;28:599–607.
MLA	Salary, Ebrahim et al. “Step-Up DC/DC Converter Based on Partial Power Processing”. Gazi University Journal of Science, vol. 28, no. 4, 2015, pp. 599-07.
Vancouver	Salary E, Banaei MR, Ajami A. Step-Up DC/DC Converter Based on Partial Power Processing. Gazi University Journal of Science. 2015;28(4):599-607.