The magnetic network model of hybrid step motor is established according to the air gap late permeance method, and the expression of the harmonic back EMF is deduced.
利用气隙比磁导法建立了混合式步进电动机的磁网络模型,推导出谐波反电势的表达式。
In this paper the mathematical model of this hybrid suspension system is induced, its characteristics are analyzed, and a controller is designed to ensure its fixed suspension gap.
本文建立了该混合悬浮系统的数学模型,分析了它的一些性质,采用定气隙控制指标,设计了使系统稳定的控制器,并对所设计的控制器进行了仿真。
The paper puts forward a hybrid magnetic circuit multi couple electric machine that compensates for the uneven air gap magnetic field of the hybrid stepping motor.
提出了一种混合磁路多边耦合电机,对混合式步进电机永磁体产生的气隙磁场沿轴向分布不均匀的问题进行了补偿。
There are mixed magnetic field system of axial and radial in hybrid stepping motors, and the magnetic field in the gap (or teeth layer)is distributed uneven along the axial direction.
混合式步进电动机内部是径向和轴向混合的磁系统,气隙或齿层的磁场沿电机轴向非均匀分布,将问题简化为二维磁场后要得到精确结果有一定的困难。
The adoption of hybrid magnetic circuit structure in permanent magnet motors can effectively increase air gap flux density.
永磁电机中采用混合式磁路结构能有效地提高气隙磁通密度。
In our opinion, hybrid technology will bridge a gap and then electric drive will become more important.
在我们看来,混合动力技术将会作为一个重要过渡,而之后电力驱动将变得更加重要。
In this paper, the magnetic network model of hybrid step motor is established according to the air gap rate permeance method, and the expression of the harmonic back EMF is deduced.
利用气隙比磁导法建立了混合式步进电动机的磁网络模型,推导出谐波反电动势的表达式。
For the industrial application of laser-arc hybrid welding, the groove gap bridging ability of this process was investigated in detail.
为推动激光-电弧复合焊接的工程应用,对其接头间隙桥接能力进行了系统研究。
The laser-arc hybrid welding can improve the depth of fusion, welding speed and assembly gap, so it is a new and promising thermal source for welding.
激光-电弧复合热源焊接可以增大焊接熔深,提高焊接速度,增大装配间隙,是一种很有前途的新型焊接热源。
A suspension system with hybrid electromagnets made of permanent - and electromagnets consumes little power, and can realize larger air gap.
永久磁铁和常导线圈构成的混合式悬浮系统,悬浮能耗小,可实现大气隙悬浮。
A suspension system with hybrid electromagnets made of permanent - and electromagnets consumes little power, and can realize larger air gap.
永久磁铁和常导线圈构成的混合式悬浮系统,悬浮能耗小,可实现大气隙悬浮。
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