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- Title
An Improved DTC Based Five-phase Induction Motor Drive with Minimum Torque Ripple and Constant Switching Frequency.
- Authors
GAURI, Anitha; VINOD, Balachandran Remabai; SREENI, Kamalalayam Gopalan; SHINY, Gopinathan
- Abstract
Variation in switching frequency with operating speed and high torque ripples are two important limitations of the Direct Torque Control or DTC technique. The potentiality of the switching device cannot be fully exploited for variable switching frequency (in the case of lowest frequency) whereas high torque ripples lead to vibrations and acoustic noise in the motor. A five-phase induction motor (FPIM) based on DTC technique is presented here to overcome these drawbacks. A five-level Proportional-Integral (PI) based torque controller using waveform comparison is employed in the drive. The PI controller will process the torque error whose output is then compared simultaneously with four constant frequency triangular waves to achieve constant switching frequency. The gains of PI controller are designed using linear control theory for minimum torque ripples. Stator current distortion due to the presence of auxiliary subspace in the five-phase system is also minimized. The demagnetization of stator flux during lowspeed operation is mitigated through the selection of voltage vectors that are present thirty-six degrees within the sector boundaries. Experimental results have been presented for validating the steady state and dynamic performance of proposed DTC technique.
- Subjects
INDUCTION motors; TORQUE; TORQUE control; ACOUSTIC vibrations; NOISE
- Publication
Advances in Electrical & Computer Engineering, 2024, Vol 24, Issue 1, p51
- ISSN
1582-7445
- Publication type
Article
- DOI
10.4316/AECE.2024.01006