2018
DOI: 10.3390/en11010197
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On the Mathematical Modeling of Line-Start Permanent Magnet Synchronous Motors under Static Eccentricity

Abstract: Line start permanent magnet synchronous motors experience different types of failures, including static eccentricity. The first step in detecting such failures is the mathematical modeling of the motor under healthy and failed conditions. In this paper, an attempt to develop an accurate mathematical model for this motor under static eccentricity is presented. The model is based on the modified winding function method and coupled magnetic circuits approach. The model parameters are calculated directly from the … Show more

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Cited by 5 publications
(3 citation statements)
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“…In contrast to other approaches exploiting phase current modulation, in the proposed method, to find the amplitudes and phases of the current harmonics that will allow us to improve the energy conversion quality in the PMSM, the precise assessment of the torque ripple is carried out by an analysis of the magnetic field distribution, determined using FEM. Numerical models based on FEM, due to the high reliability resulted from solving partial difference equations describing the magnetic field in space and time domains, are now commonly used at the design stage of EMs [14][15][16][17]. In general, exploiting FEM-based models allows researchers to avoid building a high number of expensive prototypes, which would otherwise be needed to verify the design process.…”
Section: Torque Ripple Minimization Of Pmsm By Current Modulation Methodsmentioning
confidence: 99%
“…In contrast to other approaches exploiting phase current modulation, in the proposed method, to find the amplitudes and phases of the current harmonics that will allow us to improve the energy conversion quality in the PMSM, the precise assessment of the torque ripple is carried out by an analysis of the magnetic field distribution, determined using FEM. Numerical models based on FEM, due to the high reliability resulted from solving partial difference equations describing the magnetic field in space and time domains, are now commonly used at the design stage of EMs [14][15][16][17]. In general, exploiting FEM-based models allows researchers to avoid building a high number of expensive prototypes, which would otherwise be needed to verify the design process.…”
Section: Torque Ripple Minimization Of Pmsm By Current Modulation Methodsmentioning
confidence: 99%
“…Columnar vector of phase voltages supplied to the power transformer's primary winding u 20 Columnar vector of phase voltages supplied to the power transformer's secondary winding u R Columnar vector of voltages across the rotor cage bars V Columnar vector of phase drive system voltages V Drive system voltage x Current coordinate along the shaft z Coordinate oriented into a cylindrical system deep bar…”
Section: Conflicts Ofmentioning
confidence: 99%
“…There is also a third approach to stabilising voltage in a drive system, which is essentially different to the two described above. If practicable, part of asynchronous drive motors should be replaced with synchronous motors as early as the stage of a drive system design [9,[16][17][18][19][20]. In static states, the angle between the vector of a drive system supply voltage and the vector of synchronous machine phase current can be controlled with the well-known V-characteristics (Mordey curves).…”
Section: Introductionmentioning
confidence: 99%