Development of an Even-Phase Switched Reluctance Motor Drive for Torque Performance Improvement

The quality of electromagnetic torque is an important factor in evaluating the operational performance of switched reluctance motors (SRMs). However, a conventional even-phase SRM cannot maintain symmetrical electromagnetic torque at all times of a single rotor cycle, which significantly increases t...

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Veröffentlicht in:IEEE transactions on energy conversion 2024-12, Vol.39 (4), p.2439-2452
Hauptverfasser: Xu, Shuai, Chen, Hanyang, Tao, Luwei, Wang, Peixin, Nie, Rui, Si, Jikai
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container_end_page 2452
container_issue 4
container_start_page 2439
container_title IEEE transactions on energy conversion
container_volume 39
creator Xu, Shuai
Chen, Hanyang
Tao, Luwei
Wang, Peixin
Nie, Rui
Si, Jikai
description The quality of electromagnetic torque is an important factor in evaluating the operational performance of switched reluctance motors (SRMs). However, a conventional even-phase SRM cannot maintain symmetrical electromagnetic torque at all times of a single rotor cycle, which significantly increases the torque ripple and vibration noise. Here, to enhance torque performance, this article develops a novel even-phase SRM drive considering torque symmetry and response improvement. First, the mechanism underlying asymmetric torque phenomena are analyzed and presented. Second, the possible winding connection types of even-phase SRMs with odd teeth are explored. Then, magnetic circuit distributions are analyzed to optimize the winding connection types and eliminate the asymmetric torque phenomenon. Next, an improved self-boost converter is proposed to enhance the current dynamics and torque response. Subsequently, a light control algorithm is presented to drive the SRM. In addition, performance evaluation results are reported to demonstrate the validity of the torque symmetry and response performance improvement for even-phase SRMs. Finally, the theoretical analysis and simulation results are experimentally validated.
doi_str_mv 10.1109/TEC.2024.3390124
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However, a conventional even-phase SRM cannot maintain symmetrical electromagnetic torque at all times of a single rotor cycle, which significantly increases the torque ripple and vibration noise. Here, to enhance torque performance, this article develops a novel even-phase SRM drive considering torque symmetry and response improvement. First, the mechanism underlying asymmetric torque phenomena are analyzed and presented. Second, the possible winding connection types of even-phase SRMs with odd teeth are explored. Then, magnetic circuit distributions are analyzed to optimize the winding connection types and eliminate the asymmetric torque phenomenon. Next, an improved self-boost converter is proposed to enhance the current dynamics and torque response. Subsequently, a light control algorithm is presented to drive the SRM. 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subjects Algorithms
Control algorithms
Control theory
Current dynamics
Electric motors
Magnetic circuits
Magnetic flux
Optimization
Performance evaluation
power converter
Reluctance
Reluctance motors
Rotors
Skewed distributions
switched reluctance motor
Symmetry
Torque
torque performance
Vibration analysis
Winding
winding connection types
Windings
title Development of an Even-Phase Switched Reluctance Motor Drive for Torque Performance Improvement
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