Development Of Boost Inverter Using Single Phase Matrix Converter Topology

  • Authors

    • M. F. Mohd Zin
    • R. Baharom
    • I. Mohd Yassin
    2018-10-02
    https://doi.org/10.14419/ijet.v7i4.11.21393
  • Single Phase Matrix Converter (SPMC), Inverter, Safe-Commutation Strategy, Boost Inverter, Pulse width modulation (PWM).
  • This paper presents the development of boost inverter using a single phase matrix converter (SPMC). A new switching algorithm was developed to control the SPMC circuit topology to operate as a boost inverter. The pulse width modulation (PWM) technique was used to calculate the switching duty ratio to synthesize the output. As part of boost inverter operation, a safe-commutation switching algorithm has been applied to avoid the voltage and current spikes due to the effect of inductive loads. The simulation of the proposed converter was carried out in MATLAB/SIMULINK. Selected simulation are presented to verify the proposed operation.

     

     
  • References

    1. [1] R. Shankar, R. Sankarganesh, and S. Ramesh, “Design and simulation of switched boost inverter for AC and DC loads,†3(1), 946–954, 2014.

      [2] P. Deivasundari and V. Jamuna, “Single phase matrix converter as an ‘all silicon solution,’†Proceedings of the 1st Int. Conf. Electr. Energy Syst., pp. 86–91, 2011.

      [3] P. Sanchis; A. Ursaea; E. Gubia; L. Marroyo “Boost DC-AC inverter: A new control strategy,†IEEE Trans. Power Electron., 20(2), 343–353, 2005.

      [4] T. Liang, J. Shyu, and J. Chen, “A novel DC/AC boost inverterâ€, Proceedings of the 37th Intersociety Energy Conversion Engineering Conference, pp. 629–634, 2002.

      [5] R. Patil, “Single phase to three phase AC matrix converter for traction drives,†IOSR J. Electr. Electron. Eng., 10(2), 2278–1676, 2015.

      [6] R. M. Anusuya and R. Saravanakumar, “Modeling and simulation of a single phase matrix converter with reduce switch count as a buck / boost rectifier with close loop control,†Special Issue of IJCCT, 3(1), 93–99, 1997.

      [7] R. Caceres and I. Barbi, “A boost DC-AC converter: Operation, analysis, control and experimentation,†Proceedings of the IEEE 21st Annu. Conf. Ind. Electron., pp. 546–551, 1995.

      [8] S. Chawda, “Analysis of single phase matrix converter,†International Journal of Engineering Research and Applications, 4(3), 856–861, 2014.

      [9] Minh-Khai Nguyen; Tan-Tai Tran; Young Cheol Lim, “A family of PWM control strategies for single-phase quasi-switched-boost inverterâ€, IEEE Transactions on Power Electronics, 2018, 1 – 11, 2018.

      [10] R. Baharom, N. R. Hamzah, and M. K. Hamzah, “Advanced single-phase AC-DC converter using single-phase matrix converter topology,†Proceedings of the Int. Conf. Electr. Control Comput. Eng., pp. 33–38, 2011.

      [11] V. Satish, S. K. Konathala, and A. U. R. Kiran, “Design and implementation of single phase matrix converter for cycloconverter operation,†International Journal of Engineering, 3(1), 922–927, 2014.

      [12] R. Baharom, N. R. Hamzah, and M. K. Hamzah, “A new safe-commutation technique for AC-DC converter operation using single-phase matrix converter,†Proceedings of the IEEE Int. Conf. Power Energy, no. December, pp. 298–302, 2012.

      [13] S. Z. M. Noor, M. K. Hamzah, R. Baharom, and N. Y. Dahlan, “A new single-phase inverter with bidirectional capabilities using single-phase matrix converter,†Proceedings of the IEEE Annu. Power Electron. Spec. Conf., pp. 464–470, 2007.

      [14] Z. Idris, S. Z. Mohammad Noor, and M. K. Hamzah, “Safe commutation strategy in single phase matrix converter,†Proceedings of the Int. Conf. Power Electron. Drives Syst., pp. 886–891, 2005.

      [15] R. Baharom, M. K. Hamzah, A. Saparon, and N. R. Hamzah, “Single-phase matrix converter operating as buck and boost rectifier,†Proceedings of the 4th IEEE Conf. Ind. Electron. Appl., pp. 3338–3342, 2009.

      1. S. Shilpa and H. V. K. Shetty, “Switched boost inverter with PWM control and development of a prototype model,†International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, 3(8), 10978–10986, 2014.

      [16] R. Adda, S. Mishra, and A. Joshi, “A PWM control strategy for switched boost inverter,†Proceedings of the IEEE Energy Conversion Congress and Exposition, pp. 991–996, 2011.

      [17] S. Z. Mohammad Noor, R. Baharom, N. S. Damanhuri, and M. K. Hamzah, “Single-phase inverter with fully controllable regenerative capabilities using single-phase matrix converter,†Proceedings of the 3rd IEEE Conf. Ind. Electron. Appl., pp. 934–939, 2008.

      [18] S. Z. M. Noor, R. Baharom, M. K. Hamzah, and N. R. Hamzah, “Safe-commutation strategy for controlled rectifier operation using singlephase matrix converter,†Proceedings of the Int. Conf. Power Electron. Drive Syst., pp. 1026–1029, 2009.

      [19] B. Kalaivani, V. K. Chinnaiyan, J. Jerome, “A novel control strategy for the boost DC - AC inverterâ€, Proceedings of the IEEE India International Conference on Power Electronics, pp. 341-344, 2006.

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    F. Mohd Zin, M., Baharom, R., & Mohd Yassin, I. (2018). Development Of Boost Inverter Using Single Phase Matrix Converter Topology. International Journal of Engineering & Technology, 7(4.11), 281-285. https://doi.org/10.14419/ijet.v7i4.11.21393