Fault‐tolerant control technology of symmetrical six‐phase permanent magnet synchronous motor

Gao, Hanying; Guo, Jin; Zhang, Bangping; Zhang, Guoqiang

doi:10.1049/pel2.12361

Cited by 3 publications

(2 citation statements)

References 28 publications

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“…According to [7], significant ripple in the torque is produced if the traditional control system is employed for the motor during this fault. Over the years, many researches have been dedicated to study open‐phase FTC systems for multiphase IMs [8–12] and multiphase permanent magnet synchronous motors (PMSMs) [13–17]. Nevertheless, these approaches are limited to these customized or specialized machines and applications.…”

Section: Introductionmentioning

confidence: 99%

Modified indirect rotor field‐oriented control strategies for wye‐connected three‐phase induction motor drives under an open‐phase fault

Yousefi

Ghanbari

Ebrahimi

et al. 2023

IET Power Electronics

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Field‐oriented control (FOC) has been broadly used as an accurate control method for electric drives. The traditional FOC approach has been effectively developed to 3‐phase induction motor (3φ IM) drive systems in recent decades. Despite the usefulness of FOC methods during normal condition, these strategies are unable to control a wye‐connected 3φ IM (3φ IMy) under the stator winding open circuit fault (SWOCF). This paper discusses modified indirect rotor FOC (FOCIR) strategies for 3φ IMy drives under the SWOCF. The stationary reference frame (RF) model is presented and utilized to develop vector control systems for the faulty 3φ IMy using asymmetrical transformations. This model is also used to propose a modified FOCIR method for 3φ IMy drives against the SWOCF based on the symmetrical/traditional transformation and using the bi‐voltage controller. The performances of the presented control methods are confirmed via simulations and experiments for a 3φ IMy considering the SWOCF. The achieved results show the effectiveness of modified FOCIR strategies for vector control of the faulty 3φ IMy drive.

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Section: Introductionmentioning

confidence: 99%

Modified indirect rotor field‐oriented control strategies for wye‐connected three‐phase induction motor drives under an open‐phase fault

Yousefi

Ghanbari

Ebrahimi

et al. 2023

IET Power Electronics

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“…By introducing symmetric disturbances and trajectories during testing, researchers can gain valuable insights into how the control strategy responds to symmetric challenges. This is particularly important as real-world ap-plications often involve disturbances and environmental conditions that exhibit symmetric characteristics [56][57][58][59].…”

Section: Introductionmentioning

confidence: 99%

Symmetric Nonlinear Feedback Control and Machine Learning for Sustainable Spherical Motor Operation

Hassan,

Beshr,

Beshr

et al. 2023

Symmetry

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This paper presents a comprehensive evaluation of a new control technique for the sphere motor system, aimed at achieving accurate tracking, robust and dispersion of vibrations. Control methods include the determination of a nonlinear model and the application of feedback linearization, followed by the optimization of the proportional derivative (PD) coefficients through the Adaptive Neuro-Fuzzy Inference System. In addition, the system’s reaction to harsh environments is managed using Long Short-Term Memory. In order to gain a deeper understanding, symmetrical environmental disturbances and trajectories are introduced during the testing phase. The results demonstrate the superior performance of the control strategy, with reduced vibrations, faster recovery and confirmed tracking accuracy. In addition, the control method shows its adaptability and reliability, as evidenced by the significant reduction in CO2 emissions compared to conventional PD control methods. The use of symmetric trajectories and visualizations further emphasizes the behavior of the system under symmetric conditions, strengthening the effectiveness and applicability of the control strategy in real-world scenarios. Overall, this study presents a promising solution for converting complex systems under different conditions and making them potentially applicable in various industrial contexts.

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Zero-Sequence Current Elimination PWM Scheme for Symmetrical Six-phase PMSM with Neutral Point Connection

Li,

Shen,

Zhou

et al. 2023

IECON 2023- 49th Annual Conference of the IEEE Industrial Electronics Society

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Fault‐tolerant control technology of symmetrical six‐phase permanent magnet synchronous motor

Cited by 3 publications

References 28 publications

Modified indirect rotor field‐oriented control strategies for wye‐connected three‐phase induction motor drives under an open‐phase fault

Modified indirect rotor field‐oriented control strategies for wye‐connected three‐phase induction motor drives under an open‐phase fault

Symmetric Nonlinear Feedback Control and Machine Learning for Sustainable Spherical Motor Operation

Zero-Sequence Current Elimination PWM Scheme for Symmetrical Six-phase PMSM with Neutral Point Connection

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