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  1. Research on the Permanent Magent Synchronous Motor Control System Based on Single Neuron Control

    基于单神经元的永磁同步电动机控制系统研究

  2. A New Sensorless Control for AC Permanent Magent Linear Servo Motor

    交流永磁直线伺服电机新型无传感器控制

  3. Research on Wide Flux Weakening Speed Range of Permanent Magent Synchronous Motor

    宽弱磁调速范围永磁同步电机的研究

  4. Speed Tracking Control of Permanent Magent Synchronous Motor with Adaptive Backstepping

    自适应Backstepping在永磁同步电动机速度跟踪控制中的应用

  5. This paper presents an effective method of H_ ∞ robust control for permanent magent linear servo system design .

    针对永磁直线伺服系统设计提出H∞鲁棒控制的有效方法。

  6. The Application of Hydrogen In Production of Nd-Fe-B Permanent Magent

    氢在Nd-Fe-B永磁生产中的应用

  7. A Sensorless Control for AC Permanent Magent Linear Servo Motor Using a Sliding Mode Observer

    采用滑模观测器的交流永磁直线伺服电机无传感器控制

  8. Mechanical and electrical subsystem decoupled control of speed tracking for AC linear permanent magent synchronous servo motor

    直线永磁伺服电机机电子系统解耦的速度跟踪控制

  9. A Conception of Structural Designing of the Intelligent Integrated Device for Magent Producing and Measuring in Auto and Motorcycle Instruments

    汽车、摩托车仪表智能化充测磁一体机结构设计思想

  10. Computation results from different modeling methods for a permanent magent micro-motor also show that the effective surface current model is more accurate than the effective magnetic charge model .

    最后给出了一个径向磁化永磁电机磁场的计算实例,表明等效面电流模型的精度较等效面磁荷模型为高。

  11. Mathematical model of motor is the basis of studying motor running performance , but present mathematical model of permanent magent motor can not completely reflect magnetic saturation and permanent magnet 's operating point variation .

    电机的数学模型是研究电机运行性能的基础,但是目前多相永磁电机的数学模型不能完全准确地反映磁路饱和及永磁体工作点的变化。

  12. By means of complex adding lubricants and strength compound , which increases the magnet density and improves the magnet density distribution without reduction of magent strength , the compressibility of bonded magnets is improved .

    通过复合添加润滑剂和增强剂的方法,可以保证在磁体抗压强度不降低的前提下,提高磁体的密度,改善密度分布的均匀性,从而改善粘结磁体的成型性。