Open Fault Detection in Variable Phase-Pole Machines Based on Harmonic Plane Decomposition

Wu, Yixuan; Olson, Gustaf Falk; Henriksson, Claes; Peretti, Luca

doi:10.1109/tpel.2023.3348973

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2024

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Cited by 3 publications

References 31 publications

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Sensorless Control with Indirect Field Oriented Speed Estimation for Seven-Phase Induction Machines

Wu,

Vancini,

Mengoni

et al. 2024

2024 International Conference on Electrical Machines (ICEM)

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Sensorless Control with Indirect Field Oriented Speed Estimation for Seven-Phase Induction Machines

Wu,

Vancini,

Mengoni

et al. 2024

2024 International Conference on Electrical Machines (ICEM)

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Open-Phase Fault-Tolerant Pole Transition Control of an Asynchronous Variable-Pole Machine Using Harmonic Plane Decomposition

Wu,

Vancini,

Zarri

et al. 2024

IEEE J. Emerg. Sel. Topics Power Electron.

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Automotive applications are revisiting the use of induction machines as magnet-free propulsive solutions due to their intrinsic robustness and reliability. Special multiphase configurations are under investigation to reduce the losses further and fulfill the stringent energy-efficiency and compactness requirements of the automotive industry. One of these configurations is known as variable-pole machines, which allows the number of magnetic pole pairs to change on the fly. These machines can stretch the torque-speed operating region, exploit the maximum torque capability, and exhibit competitive efficiency. Although fault tolerance has been widely explored for multiphase machines, the same cannot be said for variable-pole machines because, until recently, complete models to describe their dynamics under any condition, including magnetic pole changing and fault occurrences, were unavailable. This paper presents a post-fault control strategy for variable-pole machines with an open-phase fault, which can operate during pole changing and addresses the issue of fault-tolerant operation. The effectiveness of the control system is verified by experimental tests carried out with an eighteen-phase variable-pole induction machine prototype.

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Fault Diagnosis in Electrical Machines for Traction Applications: Current Trends and Challenges

Pastura,

Zigliotto

2024

Energies

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The widespread diffusion of electric vehicles poses new challenges in the field of fault diagnostics. Past studies have been focused mainly on machines designed for industrial applications, where the operating conditions and requirements are significantly different. This work presents a review of the most recent studies about fault diagnosis techniques in electrical machines feasible for traction applications, with a focus on the most adopted approaches of the last years and on the latest trends. Considerations about their applicability for electric vehicle purposes, along with some areas that require further research, are also provided.

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Open Fault Detection in Variable Phase-Pole Machines Based on Harmonic Plane Decomposition

Cited by 3 publications

References 31 publications

Sensorless Control with Indirect Field Oriented Speed Estimation for Seven-Phase Induction Machines

Sensorless Control with Indirect Field Oriented Speed Estimation for Seven-Phase Induction Machines

Open-Phase Fault-Tolerant Pole Transition Control of an Asynchronous Variable-Pole Machine Using Harmonic Plane Decomposition

Fault Diagnosis in Electrical Machines for Traction Applications: Current Trends and Challenges

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