Fig. 1. Topology of five-phase IM drive
Fig. 2. Sketch of stator winding distribution
Fig. 3. Vectors relation between the rotor flux and air-gapflux
Fig. 4. Waveforms of flux density distribution
Fig. 5. Rotor flux orientation for fundamental and thirdharmonic plane
Fig. 6. Air-gap flux distribution with different rotor fluxorientation
Fig. 7. Block diagram of vector control for five-phaseinduction motor with third harmonic rotor fluxorientation adjustment
Fig. 8. Simulation results for the proposal method underloading operation: (a) d1 current; (b) q1 current; (c)d3 current; (d) q3 current
Fig. 9. Simulation results for EMF distribution underloading operation: (a) the conventional method; (b)the proposal method
Fig. 10. The platform for the motor testing
Fig. 11. Experimental results of load operation forconventional method: (a) stator current locus onthe d-q frame; (b) speed and torque
Fig. 12. Experimental results for the conventional methodunder no-load: (a) stator current; (b) EMFdistribution
Fig. 13. Experimental results for the conventional methodunder rated load: (a) stator current; (b) EMFdistribution
Fig. 14. Experimental results of d-q current for theproposed method: (a) d1-q1 current; (b) d3-q3current; (c) rotor flux angle
Fig. 15. Experimental results for the proposed methodunder no-load: (a) stator current; (b) EMFdistribution.
Fig. 16. Experimental results for the proposed methodunder rated load: (a) stator current; (b) EMFdistribution
Table 1. Main dimensions of five-phase IM
Table 2. Parameters of five-phase IM
참고문헌
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