REDUCED SWITCHING LOSSES IN THE INDIRECT MATRIX CONVERTER USING SINGLE RAMP CARRIER-BASED PWM SCHEME

Payal Patel and Mahmadasraf A. Mulla

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References

  1. [1] L. Empringham, J.W. Kolar, J. Rodriguez, P.W. Wheeler, and J.C. Clare, Technological issues and industrial application of matrix converters: A review, IEEE Transactions on Industrial Electronics, 60(10), 2012, 4260–4271.
  2. [2] S. Dabour and E. Rashad, Analysis and implementation of space-vector-modulated three-phase matrix converter, IET Power Electronics, 5(8), 2012, 1374–1378.
  3. [3] A.M. Bozorgi, M. Monfared, and H.R. Mashhadi, Two simple overmodulation algorithms for space vector modulated threephase to three-phase matrix converter, IET Power Electronics, 7(7), 2014, 1915–1924.
  4. [4] P.C. Loh, R. Rong, F. Blaabjerg, and P. Wang, Digital carrier modulation and sampling issues of matrix converters, IEEE Transactions on Power Electronics, 24(7), 2009, 1690–1700.
  5. [5] B. Wang and G. Venkataramanan, A carrier based PWM algorithm for indirect matrix converters, in 2006 37th IEEE Power Electronics Specialists Conference, 1–8.
  6. [6] G.T. Chiang and J.-i. Itoh, Comparison of two overmodulation strategies in an indirect matrix converter, IEEE Transactions on Industrial Electronics, 60(1), 2012, 43–53.
  7. [7] Y. Bak and K.-B. Lee, Reducing switching losses in indirect matrix converter drives: Discontinuous PWM method, Journal of Power Electronics, 18(5), 2018, 1325– 1335.
  8. [8] P. Patel and M.A. Mulla, Simple discontinuous PWM strategies to reduce the switching losses of an indirect matrix converter, IET Power Electronics, 13(14), 2020, 2971–2982.
  9. [9] D.-T. Nguyen, H.-H. Lee, and T.-W. Chun, A carrierbased pulse width modulation method for indirect matrix converters, Journal of Power Electronics, 12(3), 2012, 448–457.
  10. [10] P.P. Patel and M.A. Mulla, A single carrier based pulse width modulation technique for three-to-three phase indirect matrix converter, IEEE Transactions on Power Electronics, 35(11), 2020, 11589–11601, doi: 10.1109/TPEL.2020. 2988594. 6

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