In this paper the control algorithm for a novel five-phase matrix converter under balanced input voltage conditions is proposed. This algorithm is essentially based on the indirect space vector modulation. The complete algorithm, analysis and the model of the proposed matrix converter are introduced. The model has been applied for the case of inductive loads. The simulation results of input-output voltages and current waveforms are presented. Finally, the results show that five-phase matrix converter based on space vector modulation can be implemented.
Rashad, E. M., & Dabour, S. M. (2011). A NOVEL FIVE-PHASE MATRIX-CONVERTER USING SPACE VECTOR MODULATION CONTROL ALGORITHM. ERJ. Engineering Research Journal, 34(4), 321-328. doi: 10.21608/erjm.2011.67286
MLA
Essam M. Rashad; Sheriff M. Dabour. "A NOVEL FIVE-PHASE MATRIX-CONVERTER USING SPACE VECTOR MODULATION CONTROL ALGORITHM", ERJ. Engineering Research Journal, 34, 4, 2011, 321-328. doi: 10.21608/erjm.2011.67286
HARVARD
Rashad, E. M., Dabour, S. M. (2011). 'A NOVEL FIVE-PHASE MATRIX-CONVERTER USING SPACE VECTOR MODULATION CONTROL ALGORITHM', ERJ. Engineering Research Journal, 34(4), pp. 321-328. doi: 10.21608/erjm.2011.67286
VANCOUVER
Rashad, E. M., Dabour, S. M. A NOVEL FIVE-PHASE MATRIX-CONVERTER USING SPACE VECTOR MODULATION CONTROL ALGORITHM. ERJ. Engineering Research Journal, 2011; 34(4): 321-328. doi: 10.21608/erjm.2011.67286
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