Third Harmonic Current Injection in Fault-Tolerant Five-Phase Permanent-Magnet Motor Drive

“…Indeed, the inversion of is different form its transpose. In addition, equations (13)(14) prove that the product of current and back-EMF vector in the new stationary subspaces is the same as in natural frame with a transformation in equation (15). However, the experimental result in [11], [12] contains high torque ripples since the back EMFs of the experimental machine include high harmonic components.…”

“…In [9], [10], B. Tian et al constructs a model based on the concept similar to the studies in [7], [8] for 5-phase PMSM machines using sliding mode control to eliminate the speed pulsation. In [11], [12] [14] proposes a new model for non-sinusoidal back-EMF machines. The torque ripples caused by the third harmonic air-gap flux is analyzed and eliminated by imposing third harmonic currents in the rotating frame.…”

“…This adjusting enables the machine to generate a torque in faulty mode equal to healthy mode. Additionally, in [11], [12], the authors tackle the problem of the asymmetrical back EMFs in α-β frame as presented in [6] by changing the way to calculate the projection of back EMFs onto the new stationary frame α-β as shown in equations (13)(14)(15). Specifically, the transpose of the inversion of the new transformation matrix is applied instead of the transformation matrix.…”

“…In [14], the authors propose new transformation matrices for a non-sinusoidal back-EMF five-phase PMSM with an open phase. The healthy phases of the machine are imposed with nonsinusoidal current references to eliminate torque ripples.…”

“…In this paper, methods using reduced-order transformation matrices for fault-tolerant control of 5-phase machines in one open phase faults will be analyzed. Several papers [6]- [13] consider only sinusoidal back-EMF machines imposed by fundamental harmonic currents while paper [14] dealing with non-sinusoidal back-EMF machines proposes an injection of the third harmonic currents. In fact, [15] introduces the use of third harmonic components of current to five-phase permanent magnet motor drives with quasi-rectangular back EMFs in an open phase fault.…”

An Overview of Methods using Reduced-Ordered Transformation Matrices for Fault-Tolerant Control of 5-phase Machines with an Open Phase

“…Indeed, the inversion of is different form its transpose. In addition, equations (13)(14) prove that the product of current and back-EMF vector in the new stationary subspaces is the same as in natural frame with a transformation in equation (15). However, the experimental result in [11], [12] contains high torque ripples since the back EMFs of the experimental machine include high harmonic components.…”

“…In [9], [10], B. Tian et al constructs a model based on the concept similar to the studies in [7], [8] for 5-phase PMSM machines using sliding mode control to eliminate the speed pulsation. In [11], [12] [14] proposes a new model for non-sinusoidal back-EMF machines. The torque ripples caused by the third harmonic air-gap flux is analyzed and eliminated by imposing third harmonic currents in the rotating frame.…”

“…This adjusting enables the machine to generate a torque in faulty mode equal to healthy mode. Additionally, in [11], [12], the authors tackle the problem of the asymmetrical back EMFs in α-β frame as presented in [6] by changing the way to calculate the projection of back EMFs onto the new stationary frame α-β as shown in equations (13)(14)(15). Specifically, the transpose of the inversion of the new transformation matrix is applied instead of the transformation matrix.…”

“…In [14], the authors propose new transformation matrices for a non-sinusoidal back-EMF five-phase PMSM with an open phase. The healthy phases of the machine are imposed with nonsinusoidal current references to eliminate torque ripples.…”

“…In this paper, methods using reduced-order transformation matrices for fault-tolerant control of 5-phase machines in one open phase faults will be analyzed. Several papers [6]- [13] consider only sinusoidal back-EMF machines imposed by fundamental harmonic currents while paper [14] dealing with non-sinusoidal back-EMF machines proposes an injection of the third harmonic currents. In fact, [15] introduces the use of third harmonic components of current to five-phase permanent magnet motor drives with quasi-rectangular back EMFs in an open phase fault.…”

An Overview of Methods using Reduced-Ordered Transformation Matrices for Fault-Tolerant Control of 5-phase Machines with an Open Phase

Comparative analysis of 3D‐SVM and 4D‐SVM for five ‐phase voltage source inverter

On Double-Space Decoupled Current Control for Five-Phase Fault-Tolerant PMSM Based on Harmonic-Injection