Experimental Electromechanical Characterization of Slotted and Slotless Miniature Bearingless Drives

P. Peralta, Guzmán Borque-Gallego, Yoann Lapijover, Y. Perriard
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Abstract

Magnetically-levitated drives are interesting in applications which demand a combination of reliable operation and high speeds. In the latter domain, slotless stators are recognized as the most suitable, as they deliver higher power density and lower speed-dependent losses. Nevertheless, the larger airgaps proper to slotless topologies minder bearing load capacities. In this study, a slotless and slotted drive designed for the same rotor are experimentally characterized. They are compared head-to-head in terms of passive stiffnesses and torque and force generation. A bearing control effort factor is also defined.
有槽和无槽微型无轴承传动的实验机电特性
磁悬浮驱动器在需要可靠运行和高速结合的应用中很有趣。在后一领域,无槽定子被认为是最合适的,因为它们提供更高的功率密度和更低的速度相关损耗。然而,适合无槽拓扑结构的较大气隙会影响承载能力。在本研究中,对同一转子设计的无槽和有槽驱动进行了实验表征。它们在被动刚度、扭矩和力产生方面进行了正面比较。还定义了轴承控制努力因子。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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