Sensorless Control for High-Speed Permanent Magnet Synchronous Motors - Zhang, Yi;Ma, Haigang;Xu, Renren
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Benefiting from advancements in power electronics and automatic control technologies, the Permanent Magnet Synchronous Motor (PMSM) has emerged as a pivotal drive component in industrial automation, renewable energy, and aerospace applications, owing to its high power density, rapid dynamic response, and sensorless operation potential. However, challenges persist in achieving reliable full-speed-range (zero-low to high-speed) sensorless control due to limitations of single-method adaptability and mechanical sensor-induced cost and reliability issues. This study proposes a hybrid sensorless…mehr

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Produktbeschreibung
Benefiting from advancements in power electronics and automatic control technologies, the Permanent Magnet Synchronous Motor (PMSM) has emerged as a pivotal drive component in industrial automation, renewable energy, and aerospace applications, owing to its high power density, rapid dynamic response, and sensorless operation potential. However, challenges persist in achieving reliable full-speed-range (zero-low to high-speed) sensorless control due to limitations of single-method adaptability and mechanical sensor-induced cost and reliability issues. This study proposes a hybrid sensorless control framework integrating domain-specific optimization and dynamic switching mechanisms to enable seamless full-speed-range operation.
Autorenporträt
Yi Zhang, female, born in 1982, doctor, professor, majoring in research on ship DC networking. Presided over one general project of National Nature Science Foundation of China. As the first author, she published 10 papers in SCI and EI journals, and authorized 32 invention patents as the first inventor.