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Finite control set—model predictive control with non-spread spectrum and reduced switching frequency applied to multi-cell rectifiers
Espinoza, José
Melín, Pedro
Rohten, Jaime
Baier, Carlos
Reyes, Marcelo
MDPI
2021
Multi-cell converters are widely used in medium-voltage AC drives. This equipment is based on power cells that operate with low-voltage-rating semiconductors and require an input multipulse transformer. This transformer cancels the low-frequency current harmonics generated by the three-phase diode-based rectifier. Unfortunately, this transformer is bulky, heavy, expensive, and does not extend the existing power cell (three-phase rectifier—Direct Current (DC) voltage-link—single-phase inverter) to the transformer. In this study, a harmonic cancelation method based on finite control set-model predictive control (FCS–MPC), extending the power cell’s modularity to the input transformer. On the other hand, it considers treating the two disadvantages of the FCS–MPC: High switching frequency and spread spectrum. The details were developed in theory and practice to obtain satisfactory experimental results.
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Finite control set—model predictive control with non-spread spectrum and reduced switching frequency applied to multi-cell rectifiers.pdf
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6.25 MB
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Checksum
Predictive control
AFE rectifiers
Total harmonic distortion minimization