MATRIX CONVERTER SWITCHING STRATEGY FOR ABNORMAL VOLTAGE CONDITIONS USING SELECTIVE HARMONIC TRACKING ALGORITHM

Senthilkumaran Mahadevan, Siddharth Raju, and Ranganath Muthu

References

  1. [1] M. Venturini and A. Alesina, The generalized transformer:A new bidirectional sinusoidal waveform frequency converterwith continuously adjustable input power factor, Proc. IEEEConf. on PESC, 1980, 242–252.
  2. [2] A. Alesina and M. Venturini, Analysis and design of optimum-amplitude nine-switch direct AC–AC converters, IEEE Trans-actions on Power Electronics, 4(1), 1989, 101–112.
  3. [3] L. Huber and D. Borojevic, Space vector modulated threephase to three phase matrix converter with input power factorcorrection, IEEE Transactions on Industry Applications, 31(6),1995, 1234–1246.
  4. [4] P. Nielsen, F. Blaabjerg, and J.K. Pedersen, Space vector mod-ulated matrix converter with minimized number of switchingsand a feed forward compensation of input voltage unbalance,Proc. IEEE Conf. on Power Electronics, Drives and EnergySystems for Industrial Growth, 2, 1996, 833–839.
  5. [5] L. Zarri, Control of matrix converters, Doctoral dissertation,University of Bologna, Bologna, 2007.
  6. [6] F. Blaabjerg, D. Casadei, C. Klumpner, and M. Matteini,Comparison of two current modulation strategies for matrixconverters under unbalanced input voltage conditions, IEEETransactions on Industrial Electronics, 49(2), 2002, 289–296.
  7. [7] M. Hornkamp, M. Loddenkotter, M. Muenzer, O. Simons, andM. Bruckmann, EconoMAC: The first all-in-one IGBT modulefor matrix converters, Proc. Conf. on Drivers & Controls onPower Electronics, 2001, 35–39.63
  8. [8] P.W. Wheeler, J. Rodriguez, J.C. Clare, L. Empringham, andA. Weinstein, Matrix converters: a technology review, IEEETransactions on Industrial Electronics, 49(2), 2002, 276–288.
  9. [9] H. Hotate and K. Masuse, Basic characteristics of matrix-converter-controlled by space vector modulation consideringinput voltage conditions, Proc. 4th IEEE Conf. on InternationalPower Electronics and Motion Control, 2, 2004, 719–723.
  10. [10] H.J. Cha and P.N. Enjeti, An approach to reduce common modevoltage in matrix converter, IEEE Transitions on IndustryApplications, 39(4), 2003, 1151–1159.
  11. [11] H.J. Cha, Analysis and design of matrix converters for ad-justable speed drives and distributed power source, Doctoraldissertaion, Texas A&M University, Texas, 2004.
  12. [12] S.M. Barakati, M. Kazerani, and J.D. Aplevich, A dynamicmodel for a wind turbine system including a matrix converter,Proc. ACTA Press Conf. on Power and Energy Systems, 2007,2083–2089.
  13. [13] J.M. Lozano and J.M. Ramirez, Matrix converter performanceunder unbalanced input-voltage, Proc. 40th North AmericanConf. on Power, 2008.

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