Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The matrix rectifier modulated by the classical space vector modulation (SVM) strategy generates common-mode voltage (CMV). The high magnitude and high du/dt of the CMV causes serious problems such as motor damage, electromagnetic noise and many others. In this paper, an improved SVM strategy is proposed by replacing the zero vectors with suitable couple of active ones that substantially eliminate the CMV. Theoretical analysis proves that the proposed strategy can reduce the amplitude of the CMV to half of the original value. In addition, the quality of the input and output waveforms is not affected by extra active vectors. Simulation and experimental results demonstrate the feasibility and effectiveness of the proposed strategy are shown.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
93--106
Opis fizyczny
Bibliogr. 18 poz., rys., wykr., wz.
Twórcy
autor
- School of Control Science and Engineering, Shandong University Jinan, Shandong Province, P. R. China
autor
- School of Control Science and Engineering, Shandong University Jinan, Shandong Province, P. R. China
autor
- School of Control Science and Engineering, Shandong University Jinan, Shandong Province, P. R. China
Bibliografia
- [1] Yang X.H., Jiang J.G., Yang X.J., Vector operation of one-cycle controlled matrix rectifier. Archives of Electrical Engineering 61(2): 149-164 (2012).
- [2] Holmes D.J., Lipo T.A., Implementation of a controlled rectifier using AC-AC matrix converter theory. IEEE Transactions on Power Electronics 7(1): 240-249 (1992).
- [3] Venturini M., A new sine wave in sine wave out, conversion technique which eliminates reactive elements. Proceeding of Powercon 7: 1-15 (1980).
- [4] Rodriguez J., Rivera M., Kolar J.W., Wheeler P.W., A review of control and modulation methods for matrix converters. IEEE Transactions on Industrial Electronics 59(1): 58-70 (2012).
- [5] Nguyen T.D., Lee H.H., Modulation strategies to reduce common-mode voltage for indirect matrix converters. IEEE Transactions on Industrial Electronics 59(1): 129-140 (2012).
- [6] Hara H., Yamamoto E., Kume T., Improvement of output voltage control performance for low-speed operation of matrix converter, IEEE Transactions on Power Electronics, 20(6): 1372-1378 (2005).
- [7] Han J.C., Enjeti P.N., An approach to reduce common-mode voltage in matrix converter, IEEE Transactions on Industry Applications 39(4): 1151-1159 (2003).
- [8] Bradaschia F., Cavalcanti M.C., Ibarra E. et al., Generalized pulse-width-modulation to reduce common-mode voltage in matrix converters, in Record of the IEEE Energy Conversion Congress and Exposition, San Jose, CA, USA, pp. 3274-3281 (2009).
- [9] Vargas R., Ammann U., Rodriguez J., Pontt J., Predictive strategy to control common-mode voltage in loads fed by matrix converters, IEEE Transactions on Industrial Electronics, 55(12): 4372-4380 (2008).
- [10] Jussila M., Alahuhtala J., Tuusa H., Common-mode voltages of space-vector modulated matrix converters compared to three-level voltage source inverter, in Record of the IEEE Power Electronics Specialists Conference, Cairns, Queensland, Australia, pp. 1-7 (2006).
- [11] Zhang X., Tong C., Yang S.Y., Xie Z., Restraining common-mode voltage for two-stage matrix converter based on double space vector modulation, China Society for Electrical Engineering 30(18): 33-38 (2010).
- [12] Gupta R.K., Mohapatra K.K., Somani A., Mohan N., Direct- matrix converter-based drive for a three-phase open-end-winding ac machine with advanced features, IEEE Transactions on Industrial Electronics 57(12): 4032-4042 (2010).
- [13] Wang J., Bouazdia M., Influence of filter parameters- topologies on stability of matrix converter-fed permanent magnet brushless motor drive systems, Proceeding of IEEE International Electric Machines and Drives Conferences, Miami, FL, USA, pp.: 964-970 (2009).
- [14] Ratanapanachote S., Han J.C., Enjeti P.N., A digitally controlled switch mode power supply based on matrix converter, IEEE Transactions on Power Electronics 21(1): 124-130 (2006).
- [15] Nguyen H.M., Lee H.H., Chun T.W., Input power factor compensation algorithms using a new direct-SVM method for matrix converter, IEEE Transactions on Industrial Electronics 58(1): 232-243 (2011).
- [16] Wang X.W., Lin H., Deng J., She H.W., Optimization Modulation pattern for space vector modulation method of matrix converter in practical application, China Society for Electrical Engineering 31(30): 7-15 (2011).
- [17] Antoni A., Wheeler P.W., Elimination of waveform distortions in matrix converters using a new dual compensation method, IEEE Transactions on Industrial Electronics 54(4): 2079-2087 (2007).
- [18] He B., Lin H., She H.W., Improvement in output voltage for matrix converter under narrow pulses, China Society for Electrical Engineering 29(27): 42-47 (2009).
Typ dokumentu
Bibliografia
Identyfikator YADDA
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