Five-Dimensional Switching-Table-Based Direct Torque Control of Six-Phase Drives

This article proposes a novel 5-D switching-table-based direct torque control (5D-DTC) strategy for asymmetrical six-phase induction machines (6PIMs). As is well-known, classical DTC of 6PIM is penalized by significant stator current harmonics, which are mapped into the nonenergy subspace (x-y subsp...

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Veröffentlicht in:IEEE transactions on power electronics 2022-12, Vol.37 (12), p.15260-15271
Hauptverfasser: Holakooie, Mohammad Hosein, Iwanski, Grzegorz, Miazga, Tomasz
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Sprache:eng
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Zusammenfassung:This article proposes a novel 5-D switching-table-based direct torque control (5D-DTC) strategy for asymmetrical six-phase induction machines (6PIMs). As is well-known, classical DTC of 6PIM is penalized by significant stator current harmonics, which are mapped into the nonenergy subspace (x-y subspace). The concept of virtual voltage vectors (VVs) has been frequently perceived as able to tackle the problem of x-y currents. Such a concept maintains zero average volt-second in the x-y subspace, which in turn suppresses current harmonics due to discrete pulsewidth modulation implementation to a great extent compared to the classical DTC. However, it still cannot effectively compensate for x-y currents, mainly arising from dead band effect and machine/converter asymmetry, due to lack of dedicated regulators for x-y currents. Indeed, the x-y currents can be fully suppressed only in the presence of active control over them. This article incorporates additional hysteresis regulators of x-y currents into the direct torque control strategy. In the proposed 5D-DTC scheme, there are in total five indexes for optimal selection of VVs as torque, stator flux, x-y currents, and stator flux position indexes. In this way, a clustering method is developed for synthesizing VVs to cover all possible cases of the switching table. A beneficial feature in comparison with 3-D switching-table-based DTC is effective suppression of x-y currents with a rather simple structure, without increasing the switching frequency, and without decreasing dc-link utilization. Experimental results confirm the effectiveness of the proposed technique.
ISSN:0885-8993
1941-0107
DOI:10.1109/TPEL.2022.3189876