FIELD-ORIENTED CONTROL OF DUAL-STAR INDUCTION MACHINE WITH ENERGY QUALITY BASED ON FUZZY LOGIC
DOI:
https://doi.org/10.59277/RRST-EE.2025.4.9Keywords:
Dual star induction machine, Field oriented control, Fuzzy logic, Non-sequential components, Energy qualityAbstract
Power segmentation offers a solution to ensure service continuity and improve the quality of electrical energy. Multi-star machines powered by voltage inverters are subjected to non-sequential currents, which disturb the fundamental currents and thus deteriorate the quality of the energy supplied by these machines. In this work, a new field-oriented control (NFOC) based on a new mathematical model of the double-star induction machine (DSIM) is proposed. This new model separates the DSIM into two distinct parts (fundamental and secondary), enabling the elimination of these non-sequential currents using fuzzy logic. This also brings the control of the DSIM closer to that of classical three-phase induction machines, resulting in improved regulation and reduced computation time. The new model, along with its new control, has been validated through simulations in MATLAB/Simulink, yielding very interesting results compared to the classical DSIM field-oriented control (CFOC).
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