A New Post-Fault Reconfiguration Strategy under Open-Phase Operation Conditions of Asymmetrical Double-Star Induction Machines

The fault tolerance proprieties of multiphase induction machines make them candidate technologies for future electrified transport systems. Indeed, the use of multiphase drives is primarily recommended for their redundancy, which allows them to handle increasing power demands as well as provide faul...

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Bibliographic Details
Published in:Energies (Basel) 2023-08, Vol.16 (15), p.5740
Main Authors: Iffouzar, Koussaila, Benkhoris, Mohamed-Fouad, Amrouche, Bessam, Houari, Azeddine, Ghedamsi, Kaci, Djerioui, Ali
Format: Article
Language:English
Subjects:
Control algorithms
double-star induction machine
Engineering Sciences
Fault tolerance
fault-tolerant strategies
open-phase fault
Software
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Summary:The fault tolerance proprieties of multiphase induction machines make them candidate technologies for future electrified transport systems. Indeed, the use of multiphase drives is primarily recommended for their redundancy, which allows them to handle increasing power demands as well as provide fault-tolerant operation. One of the most common failures in polyphase induction machines is open-phase fault (OPF). Under this degraded mode, machine performance deteriorates with increased torque ripples and copper losses. This work investigates the fault-tolerant operation of dual star induction machines (DSIM) with two connected neutral points in which a new post-fault operation technique is introduced to manage the OPFs. The machine was modeled on the natural reference frame, and no transformations were used. The phase opening is caused by inserting a high-value resistor in series with the faulty phase, which cancels the current flowing in the latter. A post-fault reconfiguration strategy that reorganizes the power converter in order to cancel torque ripples by exploiting the principle of multi-biphase modeling of the DSIM is proposed. The performance of the proposed reconfiguration strategy was verified through detailed simulation results.
ISSN:1996-1073
1996-1073
DOI:10.3390/en16155740