WSEAS Transactions on Circuits and Systems


Print ISSN: 1109-2734
E-ISSN: 2224-266X

Volume 17, 2018

Notice: As of 2014 and for the forthcoming years, the publication frequency/periodicity of WSEAS Journals is adapted to the 'continuously updated' model. What this means is that instead of being separated into issues, new papers will be added on a continuous basis, allowing a more regular flow and shorter publication times. The papers will appear in reverse order, therefore the most recent one will be on top.

Volume 16, 2017


A Novel Sine Duty-Cycle Modulation Control Scheme for Photovoltaic Single-Phase Power Inverters

AUTHORS: Arnaud Obono Biyobo, Leandre Nneme Nneme, Jean Mbihi

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ABSTRACT: In this paper, a novel SDCM (sine duty-cycle modulation) scheme for photovoltaic (PV) singlephase power inverter is presented. Unlike popular SPWM (sine pulse width modulation) strategies, the SDCM control scheme consists of a minimum number or building components, while offering a robust feedback control topology. The main DC power to be converted, is delivered by an upstream PV panel. Then, a SDCM circuit with appropriate basic modulation frequency, is used as a switching driver for power MOSFETs of a single phase H-bridge inverter. The merits of the proposed SDCM control scheme, are proven using analytical developments, followed by relevant virtual simulations conducted on a prototyping power inverter within Multisim software framework. Moreover, the virtual simulation results obtained are presented, in order to show the high quality of the proposed class of SDCM control schemes for PV Single-phase power inverters.

KEYWORDS: Sine duty-cycle modulation, control scheme, open-loop control, photovoltaic, single-phase, power inverters, LC filter, virtual simulation

REFERENCES:

[1] B. M. Sharma, New Trends in Solar Energy Modeling and Developing a Relation for Performance of Solar Radiation, European Jurnal of Advances in Engineering and Technology, 2017, 4(9), 649-656.

[2] H. Koran, T. LaBella and J-S. Lai, High Efficiency Photovoltaic Source Simulator with Fast Response Time for Solar Power Conditioning Systems Evaluation, IEEE Transactions on Power Electronics, 2014, 29 (3), 1285-1296.

[3] R Wai and W Wang, Grid-Connected Photovoltaic Generation System, IEEE Transaction on Circuits and Sys-tems, 2008, 55 (3), 953–964.

[4] A.A Hassan, F. Famy, A. E.A Nafeh, M. A. and El-Sayyed, Modelling and Simulation of a single phase grid connected photovoltaic system, Wseas Transactions on Systems and Control, January 2010, 1(5), 16-25.

[5] M. Dave and S. R. Vyas, Simulation and modelling of single phase DC-AC converter for solar inverter, International Research Journal of Engineering and Technology, December 2015, 02(9), pp. 2225-2230.

[6] S. M. Cherati, N. A. Azili, M. Ayob and A. Mortezaei, Design of a current mode PI controller for a single phase PWM Inverter, IEEE Applied Power Electronics Colloquim, 2011, pp. 180-183.

[7] K. G. Gosmni and G. GhoshZhan,Closed loop PI design of single-phase motor using SPWM, International Journal of Advances Research in Computer Science and Software Engineering, 2017, 7(6), pp. 123-128.

[8] Mbihi, B. Ndjali and M. Mbouenda, Modelling and Simulation of a Class of Duty-Cycle modulators for Industrial Instrumentation, Iranian Journal of Electrical and Computer Engineering, 2005, 4(2), pp. 121-128.

[9] Mbihi, B. Ndjali and M. Mbouenda, A novel Analog-To-Digital Conversion Technique Using Duty-Cycle Modulation, International Journal of Electronics and Computer Science Engineering, 2012, 1(3), pp. 818-825.

[10] J. Mbihi and L. Nneme Nneme, A MultiChannel Analog-To-Digital Conversion Technique Using Parallel Duty-Cycle Modulation, International Journal of Electronics and Computer Science Engineering, 2012, 1(3), pp. 826–833.

[11] Moffo Lonla B., Mbihi J., Nneme Nneme L., Kom M., A Novel Digital– to–Analog Conversion Technique using Duty-Cycle Modulation, International Journal of Circuits, Systems and Signal processing, 2013.

[12] B. Moffo Lonla. And J. Mbihi, A Novel Digital Duty–Cycle Modulation Scheme for FPGABased Digital-to-Analog Conversion, IEEE Transaction on circuits and system II, 2015, 62(6), pp. 543–547.

[13] B. Moffo Lonla, J. Mbihi and L. Nneme Nneme, FPGA-Based Multichannel Digital Dutycycle Modulation and application to simultaneous Generation of Analog Signals, STM Journal of Electronic Design Technology (JoEDT), 2017, 8(1), pp. 23-35.

[14] L. Nneme Nneme, J. Mbihi, Modeling and Simulation of a New Duty– Cycle Modulation Scheme for Signal Transmission System, American Journal of Electrical and Electronic Engineering, 2014, 2(3), pp. 82–87

[15] Moffo Lonla B., Jean Mbihi, Leandre Nneme Nneme. A Low Cost and High Quality Duty–Cycle Modulation Scheme and Applications. International Journal of Electrical, Electronic Science and Engineering, 2014, 8(3), pp. 82–88.

[16] Mbihi, Nneme, Kom, A Suboptimal Nonlinear Duty-cycle Modulation Scheme, © STM Journal of electronic Design Technology, 2016, 7(1), pp. 22- 31.

[17] J. Mbihi and L. Nneme Nneme, “A Novel Control Scheme for Buck Power Converters using Duty–Cycle Modulation”. International Journal of Power Electronics, 2013, 5(3/4), pp. 185–199.

[18] Y. P. Danwé Sounsoumou, H. Djalo, J. Mbihi, et J. Y. Effa, Modelisation Virtuelle d’un nouveau schema de réglage de Boost à commande rapprochée par modulation en rapport cyclique, Journal Afrique Science, 13(11), 2017, pp. 176-185.

[19] J. Mbihi, Dynamic modelling and virtual simulation of duty-cycle modulation control drivers, International Journal of Electrical, Electronic Science and Engineering, 2017, 11(4), pp. 472-477. WSEAS TRANSACTIONS on CIRCUITS and SYSTEMS

WSEAS Transactions on Circuits and Systems, ISSN / E-ISSN: 1109-2734 / 2224-266X, Volume 17, 2018, Art. #14, pp. 105-113


Copyright © 2018 Author(s) retain the copyright of this article. This article is published under the terms of the Creative Commons Attribution License 4.0

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