Modeling of Symmetrical Six-Phase Induction Machines Under Stator Faults

Antunes, Hugo R. P.; Fonseca, D. S. B.; Cardoso, António J. Marques

doi:10.1109/tia.2023.3242940

Cited by 9 publications

(3 citation statements)

References 36 publications

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“…The multiphase motors and drives with redundant phase number characterized by high reliability: they are able successfully but with greater losses operate under fault conditions up to single winding remains, but they are not able to start without three windings supplied. [10][11][12][13] The motor dynamic performance is describing by state-space equations.…”

Section: Introductionmentioning

confidence: 99%

“…It is possible to achieve smaller size and weight of electric drives and their control electronics.The multiphase motors and drives with redundant phase number characterized by high reliability: they are able successfully but with greater losses operate under fault conditions up to single winding remains, but they are not able to start without three windings supplied. [10][11][12][13] The motor dynamic performance is describing by state-space equations.Solution of those gives information about dynamic and steadystate characteristics of six-phase motor drive. It can be used to analyse behaviour of the drive and design control methods improving performance.…”

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confidence: 99%

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Design and Analysis Models With PID and PID Fuzzy Controllers for Six-Phase Drive

Rinkeviciene

2024

SOJEI

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The multiphase motors due to their reliability find new areas of application in the industry and transportation. Developing of any system with multiphase motors at first requires elaborate model of the system, define control mode and controllers. The model of control system for the sixphase drive is based on its conventional d-q mathematical model and indirect field-oriented control. Simulink model of six-phase drive with indirect field-oriented control and simulated with two types PID and PID fuzzy controllers. The simulation results, reflecting step response and provided speed reference law as well as load application at constant speed, are presented and analyzed. Fuzzy controller with 49 rules is considered and applied. Six-phase electric drive with field-oriented control at well-tuned PID controller has good step response specifications: settling time 0.13 s at starting without load, step response has no overshoot, small about 1% short time decrease of speed at load of 5 Nm application. The system employing PID fuzzy controller shows slightly better results in response to torque application: the decrease in speed 1% is eliminated in shorter time. Simulation results indicate the robustness of both systems with six-phase drive to disturbance and provide high quality transient specifications at provided reference speed.

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Section: Introductionmentioning

confidence: 99%

mentioning

confidence: 99%

Design and Analysis Models With PID and PID Fuzzy Controllers for Six-Phase Drive

Rinkeviciene

2024

SOJEI

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show abstract

Section: Introductionmentioning

confidence: 99%

Design and Analysis Models with PID and PID Fuzzy Controllers for Six-phase Drive

Rinkeviciene,

Mitkiene

2024

Preprint

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The multiphase motors due to their reliability find new areas of application in the industry and transportation. Developing of any system with multiphase motors at first requires elaborate model of the system, define control mode and controllers. The model of control system for the six-phase drive is based on its conventional d-q mathematical model and indirect field-oriented control. Simulink model of six-phase drive with indirect field-oriented control and simulated with two types PID and PID fuzzy controllers. The simulation results, reflecting step response and provided speed reference law as well as load application at constant speed, are presented and analyzed. Fuzzy controller with 49 rules is considered and applied. Six-phase electric drive with field-oriented control at well-tuned PID controller has good step response specifications: settling time 0.13 s at starting without load, step response has no overshoot, small about 1 % short time decrease of speed at load of 5 Nm application. The system employing PID fuzzy controller shows slightly better results in response to torque application: the decrease in speed 1 % is eliminated in shorter time. Simulation results indicate the robustness of both systems with six-phase drive to disturbance and provide high quality transient specifications at determined reference speed.

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Pole-Phase Modulation of Symmetrical 6-Phase Induction Motor Drive for Electric Vehicle With 1:2 Speed Control

Umredkar,

Keshri,

Borghate

et al. 2024

IEEE Access

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Modeling of Symmetrical Six-Phase Induction Machines Under Stator Faults

Cited by 9 publications

References 36 publications

Design and Analysis Models With PID and PID Fuzzy Controllers for Six-Phase Drive

Design and Analysis Models With PID and PID Fuzzy Controllers for Six-Phase Drive

Design and Analysis Models with PID and PID Fuzzy Controllers for Six-phase Drive

Pole-Phase Modulation of Symmetrical 6-Phase Induction Motor Drive for Electric Vehicle With 1:2 Speed Control

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