Dynamic Modeling and Validation of a Lorentz, Self-Bearing Motor Test Rig

L. S. Stephens; D.-G. Kim

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Dynamic Modeling and Validation of a Lorentz, Self-Bearing Motor Test Rig

机译：Lorentz自承式电机试验台的动态建模和验证

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A new type of self-bearing motor that uses Lorentz-type forces to generate both bearing force and motoring torque has been developed. The motor stator is of slotless construction with four three-phase windings. The motor rotor is constructed of 16 surface mounted permanent magnets (PM's). The main advantage of the design is that it eliminates the tradeoff between motoring torque and bearing force with PM thickness as found in previous designs. This paper presents the dynamic model for the self-bearing motor and illustrates how the model is integrated into the overall system model of the motor test rig. The dynamic model is validated against experimentally measured transfer functions with good agreement between the two.

机译：已经开发出一种新型的自轴承电动机，该电动机使用洛伦兹型力来产生轴承力和电动机转矩。电机定子为无槽结构，带有四个三相绕组。电机转子由16个表面安装的永磁体（PM）构成。该设计的主要优点是，它消除了在先前设计中发现的PM厚度下的电动机转矩和轴承力之间的折衷。本文介绍了自轴承电动机的动力学模型，并说明了该模型如何集成到电动机试验台的整个系统模型中。动态模型针对实验测量的传递函数进行了验证，两者之间具有良好的一致性。

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《Journal of Engineering for Gas Turbines and Power》 |2003年第1期|p.156-166|共11页
作者
L. S. Stephens; D.-G. Kim;
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Department of Mechanical Engineering, University of Kentucky, 521 CRMS, Lexington, KY 40506;

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正文语种 eng
中图分类燃气轮机（燃气透平）;热力工程、热机;
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Dynamic Modeling and Validation of a Lorentz, Self-Bearing Motor Test Rig

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