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Multi Transformer Cell Inverter with Reduced DC sources

Year 2012, Volume: 25 Issue: 3, 697 - 705, 19.07.2012

Mohamad Reza Banaeı , H. Khounjahan E. Salary A. Dehghanzadeh

Abstract

This paper proposes a new isolated multi transformer cell inverter employing low-frequency single-phase transformers and two DC voltage sources. This inverter includes several transformer cells. Some of cells contain two unidirectional switches that generate two voltage levels and only one of cells has six switches that provide five voltage levels. Also, the multi transformer cell inverter provides a high number of output levels, symmetric and asymmetric states, reduction of DC sources and high modularity. The operation and performance of the suggested inverter has been proved by simulation and experimental results.

                                                                                                      

Keywords: Multi transformer cell inverter, Cascaded transformer multilevel inverter, Reduction of DC sources and components

Keywords

Multi transformer cell inverter Cascaded transformer multilevel inverter Reduction of DC sources and components

References

  • Nabe, A.,Takahashi, I. andAkagi, H., “A new neutral-point clamped PWM inverter”, in Proc. IEEE Industry Applications Society Conference, : 761-766, (Sept/Oct. 1980).
  • Rodriguez, J., Lai, J.S. and Peng, F.Z., “Multilevel Inverter: A Survey of Topologies, Controls, and applications”, IEEE Trans. on Industrial Electronics, 49(4):724-738, (August2002).
  • Chiasson, J. N., Tolbert, L. M.,McKenzie, K. J. and Du, Z. “Control of a multilevel converter using resultant theory”, IEEE Trans Cont. Syst. Theory,11(3): 345-354, (May 2003).
  • Krug, D.,Bernet, S.,Fazel, S. S.,Jalili, K. and Malinowski, M., “Comparison of 2.3-kV medium- voltage multilevel converters for industrial medium-voltage drives”, IEEE Trans. Ind. Electron., 54(6): 2979–2992, (2007).
  • Marchesoni, M. andTenca, P., “Diode-clamped multilevel converters: A practicable way to balance DC-link voltages”, IEEE Tran. Ind. Electron. , 49(4): 752-765, (August 2002).
  • Pou, J.,Pindado, R. andBoroyevich, D., “Voltage- Balance Limits in Four-Level Diode-Clamped Converters With Passive Front Ends”, IEEE Trans. Ind. Electron., 52(1): 190-196, (2005).
  • Nami, A.,Zare, F., Ghosh, A. and Blaabjerg, F., “A Hybrid Cascade Converter Topology With Series- Connected Symmetrical and Asymmetrical Diode- Clamped H-Bridge Cells”, IEEE Trans. Power. Electron., 26(1):55-61, (January 2011).
  • Lai, J. S. andPeng, F. Z., “Multilevel Converters-A New Breed of power Converters”, IEEE Trans. Industry Application, 32(3):509-517, (MAY/JUNE 1996).
  • Wilkinson, R. H.,Mouton, H. D. T. andMeynard,T. A. “Natural balance of multicell converters”,IEEE-PESC,: 1307-1312, (2003).
  • Sadigh, A. K.,Hosseini, S. H.,Barakati, S. M. andGharehpetian, G., “Flying capacitor multicell converter based dynamic voltage restorer”, in Proc. 41st North Amer. Power Symp. NAPS 1–6, (2009).
  • Hammond, P., “A new approach to enhance power quality for medium voltage ac drives”, IEEE Trans. Ind. Applicat., 33: 202-208, (1997).
  • Cengelci, E.,Sulistijo, S. U.,Woom, B. O.,Enjeti, P.,Teodorescu, R. and Blaabjerge, F., “A new medium voltage PWM inverter topology for adjustable speed drives”, in Proc. The IEEE-IAS Annu. Meeting, St. Louis, MO, Oct. 1998, : 1416- 1423, (1998).
  • Manjrekar, M. D.,Steimer, P. K. and T. Lipo, A., “Hybrid multilevel power conversion system: a competitive solution for high-power applications”, IEEE Trans. Ind. Applicat., 36: 834-841, (May/June. 2000).
  • Corzine, K. A. and Familiant, Y. L.,“ A New Cascaded Multi-Level H-Bridge Drive”,IEEE Trans. on Power Electronics, 17(1): 125-131, (January 2002).
  • Babaei, E. and Hosseini, S. H., Gharehpetian, G.B.,TarafdarHaque, M. andSabahi, M.,“Reduction of dc voltage sources and switches
  • in asymmetrical multilevel converters using a novel
  • topology”,Electric Power Systems Research, :1073- 1085, (2007).
  • Banaei M. R. and Salary, E., “New multilevel inverter with reduction of switches and gate driver”,Energy Conversion and Management,52(11): 1129-1136, (2011).
  • Babaei, E. and Hosseini, S. H., “New cascaded multilevel inverter topology with minimum number of switches”,Energy Conversion and Management, 50: 2761-2767, (2009).
  • Banaei M. R. and Salary, E., “Analysis of a Generalized Symmetrical Multilevel Inverter”, Journal of Circuits, Systems, and Computers. 20(2): 299–311, (2011).
  • Barcenas, E., Ramirez, S., Cardenas, V. and Echavarria, R., “Cascaded multilevel inverter with only one dc source”, in Proc. VIII IEEE Inter. Tech. Proc. CIEP,: 171-176, (2002).
  • Park, S. J., Kang, F. S., Cho, S. E., Moon, C. J., Nam, H.K., “ A novel switching strategy for improving modularity and manufacturability of cascaded transformer based multilevel inverters”,Electric Power System Research, 74(3): 409-416, (June 2005).
  • Song, S. G.,Kang, F. S. andPark,S. J.,“Cascaded Multilevel Inverter Employing Three-Phase Transformers and Single DC”, IEEE Trans. Industrial Electronics, 56(6): 2005-2014, (June 2009).
  • Wielebski, M. W.,Peng, F. Z. andWang,J.,“Control of cascaded multi-level inverters”, IEEE Trans Power Electron, 19(3):732-738, (2004).
  • Lu, S.,Corzine, K. A. andFikse,T. K.,“Advanced control of cascaded multilevel drives based on P–Q theory”,IEEE international conference on electric machines and drives,: 1415-1422, (2005).
  • Du, Z.,Tolbert, L. M. andChiasson,J. N.,“Active harmonic elimination for multilevel converters”,IEEE Trans Power Electron, 21(2): 459-469, (2006).
  • Banaei M. R., Hosseini, S. H., Khanmohamadi, S. and Gharehpetian, G.B., “Verification of a new energy control strategy for dynamic voltage restorer by simulation”, Simulation Modeling Practice and Theory, 14(2):112–125, (2006).
  • Blaabjerg, F.,Chen, Z. andKjaer, S. B., “Power electronics as efficient interface in dispersed power generation systems”, IEEE Trans. on Power Elect., 5(19, 1184-1194, (2004).
  • Elter, J.F. andAustin, D.G., “Power conditioning in fuel cell systems”, in Proc. IECON Conference,: 1585–1589, (November 2003).
  • Brando, G.,Dannier, A. andRizzo, R., “Power Electronic Transformer application to Grid Connected Photovoltaic Systems”,in Proc. Clean Electrical Power, International Conference,:685 – 690, (June 2009).
  • Kovacevic, G.,Tenconi, A. andBojoi, R., “Advanced DC–DC converter for power conditioning in hydrogen fuel cell systems”, International Journal Of Hydrogen Energy, 33: 3215 – 3219, (2008).
  • Wang, C. M., “A novel single-stage full-bridge buck-boost inverter”, in Proc. Conf. Rec. IEEEAPEC,51-57,(2003).

Year 2012, Volume: 25 Issue: 3, 697 - 705, 19.07.2012

Mohamad Reza Banaeı , H. Khounjahan E. Salary A. Dehghanzadeh

Abstract

References

  • Nabe, A.,Takahashi, I. andAkagi, H., “A new neutral-point clamped PWM inverter”, in Proc. IEEE Industry Applications Society Conference, : 761-766, (Sept/Oct. 1980).
  • Rodriguez, J., Lai, J.S. and Peng, F.Z., “Multilevel Inverter: A Survey of Topologies, Controls, and applications”, IEEE Trans. on Industrial Electronics, 49(4):724-738, (August2002).
  • Chiasson, J. N., Tolbert, L. M.,McKenzie, K. J. and Du, Z. “Control of a multilevel converter using resultant theory”, IEEE Trans Cont. Syst. Theory,11(3): 345-354, (May 2003).
  • Krug, D.,Bernet, S.,Fazel, S. S.,Jalili, K. and Malinowski, M., “Comparison of 2.3-kV medium- voltage multilevel converters for industrial medium-voltage drives”, IEEE Trans. Ind. Electron., 54(6): 2979–2992, (2007).
  • Marchesoni, M. andTenca, P., “Diode-clamped multilevel converters: A practicable way to balance DC-link voltages”, IEEE Tran. Ind. Electron. , 49(4): 752-765, (August 2002).
  • Pou, J.,Pindado, R. andBoroyevich, D., “Voltage- Balance Limits in Four-Level Diode-Clamped Converters With Passive Front Ends”, IEEE Trans. Ind. Electron., 52(1): 190-196, (2005).
  • Nami, A.,Zare, F., Ghosh, A. and Blaabjerg, F., “A Hybrid Cascade Converter Topology With Series- Connected Symmetrical and Asymmetrical Diode- Clamped H-Bridge Cells”, IEEE Trans. Power. Electron., 26(1):55-61, (January 2011).
  • Lai, J. S. andPeng, F. Z., “Multilevel Converters-A New Breed of power Converters”, IEEE Trans. Industry Application, 32(3):509-517, (MAY/JUNE 1996).
  • Wilkinson, R. H.,Mouton, H. D. T. andMeynard,T. A. “Natural balance of multicell converters”,IEEE-PESC,: 1307-1312, (2003).
  • Sadigh, A. K.,Hosseini, S. H.,Barakati, S. M. andGharehpetian, G., “Flying capacitor multicell converter based dynamic voltage restorer”, in Proc. 41st North Amer. Power Symp. NAPS 1–6, (2009).
  • Hammond, P., “A new approach to enhance power quality for medium voltage ac drives”, IEEE Trans. Ind. Applicat., 33: 202-208, (1997).
  • Cengelci, E.,Sulistijo, S. U.,Woom, B. O.,Enjeti, P.,Teodorescu, R. and Blaabjerge, F., “A new medium voltage PWM inverter topology for adjustable speed drives”, in Proc. The IEEE-IAS Annu. Meeting, St. Louis, MO, Oct. 1998, : 1416- 1423, (1998).
  • Manjrekar, M. D.,Steimer, P. K. and T. Lipo, A., “Hybrid multilevel power conversion system: a competitive solution for high-power applications”, IEEE Trans. Ind. Applicat., 36: 834-841, (May/June. 2000).
  • Corzine, K. A. and Familiant, Y. L.,“ A New Cascaded Multi-Level H-Bridge Drive”,IEEE Trans. on Power Electronics, 17(1): 125-131, (January 2002).
  • Babaei, E. and Hosseini, S. H., Gharehpetian, G.B.,TarafdarHaque, M. andSabahi, M.,“Reduction of dc voltage sources and switches
  • in asymmetrical multilevel converters using a novel
  • topology”,Electric Power Systems Research, :1073- 1085, (2007).
  • Banaei M. R. and Salary, E., “New multilevel inverter with reduction of switches and gate driver”,Energy Conversion and Management,52(11): 1129-1136, (2011).
  • Babaei, E. and Hosseini, S. H., “New cascaded multilevel inverter topology with minimum number of switches”,Energy Conversion and Management, 50: 2761-2767, (2009).
  • Banaei M. R. and Salary, E., “Analysis of a Generalized Symmetrical Multilevel Inverter”, Journal of Circuits, Systems, and Computers. 20(2): 299–311, (2011).
  • Barcenas, E., Ramirez, S., Cardenas, V. and Echavarria, R., “Cascaded multilevel inverter with only one dc source”, in Proc. VIII IEEE Inter. Tech. Proc. CIEP,: 171-176, (2002).
  • Park, S. J., Kang, F. S., Cho, S. E., Moon, C. J., Nam, H.K., “ A novel switching strategy for improving modularity and manufacturability of cascaded transformer based multilevel inverters”,Electric Power System Research, 74(3): 409-416, (June 2005).
  • Song, S. G.,Kang, F. S. andPark,S. J.,“Cascaded Multilevel Inverter Employing Three-Phase Transformers and Single DC”, IEEE Trans. Industrial Electronics, 56(6): 2005-2014, (June 2009).
  • Wielebski, M. W.,Peng, F. Z. andWang,J.,“Control of cascaded multi-level inverters”, IEEE Trans Power Electron, 19(3):732-738, (2004).
  • Lu, S.,Corzine, K. A. andFikse,T. K.,“Advanced control of cascaded multilevel drives based on P–Q theory”,IEEE international conference on electric machines and drives,: 1415-1422, (2005).
  • Du, Z.,Tolbert, L. M. andChiasson,J. N.,“Active harmonic elimination for multilevel converters”,IEEE Trans Power Electron, 21(2): 459-469, (2006).
  • Banaei M. R., Hosseini, S. H., Khanmohamadi, S. and Gharehpetian, G.B., “Verification of a new energy control strategy for dynamic voltage restorer by simulation”, Simulation Modeling Practice and Theory, 14(2):112–125, (2006).
  • Blaabjerg, F.,Chen, Z. andKjaer, S. B., “Power electronics as efficient interface in dispersed power generation systems”, IEEE Trans. on Power Elect., 5(19, 1184-1194, (2004).
  • Elter, J.F. andAustin, D.G., “Power conditioning in fuel cell systems”, in Proc. IECON Conference,: 1585–1589, (November 2003).
  • Brando, G.,Dannier, A. andRizzo, R., “Power Electronic Transformer application to Grid Connected Photovoltaic Systems”,in Proc. Clean Electrical Power, International Conference,:685 – 690, (June 2009).
  • Kovacevic, G.,Tenconi, A. andBojoi, R., “Advanced DC–DC converter for power conditioning in hydrogen fuel cell systems”, International Journal Of Hydrogen Energy, 33: 3215 – 3219, (2008).
  • Wang, C. M., “A novel single-stage full-bridge buck-boost inverter”, in Proc. Conf. Rec. IEEEAPEC,51-57,(2003).
There are 32 citations in total.

Details

Primary Language English
Journal Section Electrical & Electronics Engineering
Authors

Mohamad Reza Banaeı

H. Khounjahan This is me

E. Salary This is me

A. Dehghanzadeh This is me

Publication Date July 19, 2012
Published in Issue Year 2012 Volume: 25 Issue: 3

Cite

APA Banaeı, M. R., Khounjahan, H., Salary, E., Dehghanzadeh, A. (2012). Multi Transformer Cell Inverter with Reduced DC sources. Gazi University Journal of Science, 25(3), 697-705.
AMA Banaeı MR, Khounjahan H, Salary E, Dehghanzadeh A. Multi Transformer Cell Inverter with Reduced DC sources. Gazi University Journal of Science. July 2012;25(3):697-705.
Chicago Banaeı, Mohamad Reza, H. Khounjahan, E. Salary, and A. Dehghanzadeh. “Multi Transformer Cell Inverter With Reduced DC Sources”. Gazi University Journal of Science 25, no. 3 (July 2012): 697-705.
EndNote Banaeı MR, Khounjahan H, Salary E, Dehghanzadeh A (July 1, 2012) Multi Transformer Cell Inverter with Reduced DC sources. Gazi University Journal of Science 25 3 697–705.
IEEE M. R. Banaeı, H. Khounjahan, E. Salary, and A. Dehghanzadeh, “Multi Transformer Cell Inverter with Reduced DC sources”, Gazi University Journal of Science, vol. 25, no. 3, pp. 697–705, 2012.
ISNAD Banaeı, Mohamad Reza et al. “Multi Transformer Cell Inverter With Reduced DC Sources”. Gazi University Journal of Science 25/3 (July 2012), 697-705.
JAMA Banaeı MR, Khounjahan H, Salary E, Dehghanzadeh A. Multi Transformer Cell Inverter with Reduced DC sources. Gazi University Journal of Science. 2012;25:697–705.
MLA Banaeı, Mohamad Reza et al. “Multi Transformer Cell Inverter With Reduced DC Sources”. Gazi University Journal of Science, vol. 25, no. 3, 2012, pp. 697-05.
Vancouver Banaeı MR, Khounjahan H, Salary E, Dehghanzadeh A. Multi Transformer Cell Inverter with Reduced DC sources. Gazi University Journal of Science. 2012;25(3):697-705.