2020
DOI: 10.3390/electronics9121998
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Reduction of Electromagnetic Interference for Permanent Magnet Synchronous Motor Using Random PWM Switching Method Based on Four-Switch Three-Phase Inverters

Abstract: The four-switch three-phase inverters have become an effective approach for fault-tolerant reconstruction and operation of the six-switch three-phase topology. However, the conventional control strategy for four-switch three-phase inverters can result in a large number of current harmonic components, high electromagnetic acoustic noise, and electromagnetic interference (EMI). Therefore, this paper proposes a random switching frequency pulse width modulation method under the centrosymmetry period with a two-sta… Show more

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Cited by 5 publications
(3 citation statements)
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“…Combining ( 6), ( 7) and ( 8 There exist only four nonzero basic voltage vectors in the inverter reconfiguration topology, and the phases of the four vectors are inconsistent under different bridge arm faults, which results in the differences in the judgment of target voltage vector sector, the selection of basic vector and the calculation of action time during SVPWM. The judgment of sector and calculation of basic vector action time are discussed in detail in [18], [19] and [20]. The conclusion of the above documents is that since the basic voltage vector of the inverter reconstruction topology is distributed on two coordinate axes when an A-phase bridge arm fault occurs, the sector judgment and the action time of the basic vector are relatively simpler, while the calculations of the other two faults are more complex.…”
Section: The Basic Voltage Vector Of Reconstructed Topologymentioning
confidence: 99%
See 1 more Smart Citation
“…Combining ( 6), ( 7) and ( 8 There exist only four nonzero basic voltage vectors in the inverter reconfiguration topology, and the phases of the four vectors are inconsistent under different bridge arm faults, which results in the differences in the judgment of target voltage vector sector, the selection of basic vector and the calculation of action time during SVPWM. The judgment of sector and calculation of basic vector action time are discussed in detail in [18], [19] and [20]. The conclusion of the above documents is that since the basic voltage vector of the inverter reconstruction topology is distributed on two coordinate axes when an A-phase bridge arm fault occurs, the sector judgment and the action time of the basic vector are relatively simpler, while the calculations of the other two faults are more complex.…”
Section: The Basic Voltage Vector Of Reconstructed Topologymentioning
confidence: 99%
“…Since the SVPWM of reconstructing topology in case of a phase A bridge arm fault is the simplest [18][19][20], the voltage vectors of phase B and C bridge arm faults in Figure 4(b) and Figure 4(c) can be rotated through coordinate transformation, to be consistent with Figure 4(a). Taking the phase B bridge arm fault as an example, the coordinate rotation transformation matrix is calculated.…”
Section: Coordinate Transformation Of Basic Voltage Vectormentioning
confidence: 99%
“…By merely modifying the speed and frequency amplification in PMSM (Permanent Magnet Sychronous Motors) drives, it is possible to reduce the number of aberrations. [46] demonstrated a new technique and implemented the dynamic spread spectrum technology, RSFPWM (random switching frequency Pulse Width Modulation) under centrosymmetry period with a two-state Markov chain (CPTMC). Enhanced electromagnetic ambient noise radio spectrum features can be attained by optimizing the random number distribution.…”
Section: Future Trends Challenges and Opportunitiesmentioning
confidence: 99%