| 1. | Gears ' fault diagnosis by monitoring stator current
通过监测电机的定子电流实现齿轮的故障诊断 |
| 2. | Data acquisition and processing of stator current signal for asynchronous motors
异步电动机定子电流信号的数据采集与处理 |
| 3. | The pulsating torque components caused by stator current divergence from ideal conditions are studied
消除转矩脉动可以通过对定子电流加入谐波的方式完成。 |
| 4. | The initial position can he measured accurately through controlling a given position current vector of motor stator
提出了一种电机初始位置的确定方法,通过输出给定位置的定子电流矢量的方法,可以精确检测出电机初始位置。 |
| 5. | Simulation results showed that this control strategy can decrease the stator current anti improve the efficiency of the system
仿真结果表明永磁同步电动机直接转矩控制系统最大转矩电流比控制可以降低定子电流,减小损耗,从而提高系统效率。 |
| 6. | An inverse time - lag operating equation with accumulating stator current is achieved in this paper , according to the heating of the motor
根据同步电动机发热机理,建立了累加定子电流的同步电动机发热模型,较真实地反应了同步电动机的发热过程。 |
| 7. | Simulation results show that this scheme is able to achieve both the satisfactory steady state performance and fast dynamic response when plant parameters vary
仿真结果表明,定子电流在参数变化时能够实现对参考电流的快速跟踪,同时能获得良好的稳态性能。 |
| 8. | Finally , it proposes a new scheme that controls the power factor of pmsm . the model can control the power factor by controlling the stator current on the basis of the speed control
最后,建立了永磁同步电动机功率因数控制的仿真模型,在转速控制的基础上,通过控制定子电流来实现功率因数控制。 |
| 9. | This paper deal with three - loop control system for synchronouns motor , stator current loop , var - current loop , exciter current loop . how to monitoring synchronizing error , and using 80196kc to control exciter
本文讨论了三环控制的同步电动机励磁系统,即定子电流环,无功电流环和励磁电流环。以及同步电动机失步检测及以80196kc进行控制的方法。 |
| 10. | With the elevation of the power factor , stator electric current decrease obviously and its range is about 20 % . so voltage loss and electric power wastage decrease effectively on electromotor power supply circuitry consequently
随着功率因数的提高,定子电流明显的减小,减小幅度在20左右,从而有效地减少电动机供电线路的电压损失及电力损耗。 |
