Instantaneous Torque Control Method With Rated Torque-Sharing Ratio for Cascaded DFIMs

This paper presents an instantaneous torque control method for cascaded doubly fed induction machines (CDFIMs) with a rated torque-sharing ratio feature under steady-state operation. A CDFIM includes two coupled main and auxiliary doubly fed induction machines, and the rated torque-sharing ratio her...

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Bibliographic Details
Published in:IEEE transactions on power electronics 2017-11, Vol.32 (11), p.8671-8680
Main Authors: Esfandiari, Ghasem, Ebrahimi, Mohammad, Tabesh, Ahmadreza
Format: Article
Language:English
Subjects:
Brushless induction machines
cascaded doubly-fed induction machine (CDFIM)
field orientation control
Fluxes
Induction machines
Induction motors
instantaneous torque control
Product design
Production planning
rated torque-sharing ratio
Ratings
Rotors
Speed control
Stator windings
Steady-state
Torque
Torque control
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Summary:This paper presents an instantaneous torque control method for cascaded doubly fed induction machines (CDFIMs) with a rated torque-sharing ratio feature under steady-state operation. A CDFIM includes two coupled main and auxiliary doubly fed induction machines, and the rated torque-sharing ratio herein means that the machine torques are proportional to the machine ratings. The proposed method is established based on transferring the torque equations of the two machines into the rotor-flux reference frame of the auxiliary machine. Then, the instantaneous torque and the rated torque-sharing ratio are controlled via the stator current components of the auxiliary machine, while machine fluxes are within allowable ranges. To verify the method and evaluate its capabilities, the suggested method is used for the speed control of a CDFIM experimental setup including two 4-kW doubly fed induction machines and a 4-kW dc machine to apply a sudden mechanical load change to the CDFIM. Further, a case study including 12-kW and 4-kW DFIMs is also simulated to evaluate the performance of the torque control method for a CDFIM with different machine ratings. The test results confirm that the proposed control schemes achieve the desired performances without exceeding the ratings of the machines under various test scenarios.
ISSN:0885-8993
1941-0107
DOI:10.1109/TPEL.2017.2650211