Air-Gap Flux Density Distortion and Iron Losses in Anisotropic Synchronous Motors

Barcaro M.; Bianchi N.

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Air-Gap Flux Density Distortion and Iron Losses in Anisotropic Synchronous Motors

机译：各向异性同步电动机中的气隙磁通密度畸变和铁损

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The anisotropy of the rotor of the synchronous reluctance motor (sometimes assisted by permanent magnets) causes a high content of flux density harmonics. These harmonics cause flux density fluctuations in the stator iron teeth, and thus iron losses. These losses increase with the motor speed and are independent of the main flux, that is, they exist even during the flux-weakening operations. An analytical model, validated by finite-element analysis, shows the dependence of flux density harmonic content on the rotor geometry. Therefore, this model is adopted to individuate the flux-barrier geometry so as to minimize the stator iron losses.

机译：同步磁阻电机的转子的各向异性（有时由永磁体辅助）会导致大量的磁通密度谐波。这些谐波会导致定子铁齿中的磁通密度波动，从而导致铁损。这些损耗随电动机速度的增加而增加，并且与主磁通无关，也就是说，即使在弱磁通过程中也存在这些损耗。通过有限元分析验证的分析模型显示了磁通密度谐波含量对转子几何形状的依赖性。因此，采用该模型对磁通势垒的几何形状进行个性化处理，以最大程度地减少定子铁损。

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来源
《Magnetics, IEEE Transactions on》 |2010年第1期|P.121-126|共6页
作者
Barcaro M.; Bianchi N.;
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作者单位

Dept. of Electr. Eng., Univ. of Padova, Padova, Italy;

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原文格式 PDF
正文语种 eng
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关键词
air gaps; finite element analysis; geometry; magnetic flux; reluctance motors; stators; air-gap flux density distortion; anisotropic synchronous motors; flux density fluctuations; flux density harmonics; flux weakening operations; flux-barrier geometry; iron losses; permanent magnets; stator iron teeth; synchronous reluctance motor; Interior permanent magnet machine; stator iron losses; synchronous reluctance machine;

机译：气隙;有限元分析;几何形状;磁通量;磁阻电动机;定子;气隙磁通密度畸变;各向异性同步电动机;磁通密度波动;磁通密度谐波;磁通弱化操作;磁通势垒几何;铁损;永磁体;定子铁齿;同步磁阻电机;内部永磁电机;定子铁损;同步磁阻电机;
入库时间 2022-08-17 13:04:14

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Air-Gap Flux Density Distortion and Iron Losses in Anisotropic Synchronous Motors

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