Switch reluctance motor governing system (for short SRD) of the drag_fan is introduced.
阐述了拖动风机的开关磁阻电机调速系统(简称SRD)。
Pole number is determined through analyzing the operation principles of switch reluctance motor.
通过分析开关磁阻电机的运行原理,确定了极数的选择。
In this paper, starting and running of the switch reluctance motor in no-phase state is analyzed, and the relative experiments are carried out.
本文对开关磁阻电机在缺相状态启动和运行进行了分析,并进行了相关实验。
This variable speed switch reluctance motor drive can change the forming equipment to be simple in structure, reliable in working, and content in numerical control.
证明开关磁阻调速可使成形设备结构简单,运行可靠,满足数字化控制的需求。
The multiple brushless resolver uses multiplication demodulation and signal composition to achieve rate and position signals proper for driving switch reluctance motor.
多极无刷旋转变压器采用乘法解调及信号合成得到适合开关磁阻电机驱动用的速度及位置信号。
Using the incremental fuzzy control with self-adapting parameter, the phase current of the switch reluctance motor was optimized, and the constant torque control is implemented.
采用一种基于参数自调整的增量式模糊控制器,对电机相电流进行优化,从而实现恒转矩输出。
It happens that the switch reluctance motor (SRM) driving system with position sensors might fail to start up. In this article, the reasons for such failures are analyzed, followed with a solution.
针对有位置传感器的开关磁阻电机驱动系统的启动可能失败的问题,分析了其原因,并给出了解决方法。
The experimental results of model motor proves that IGBT is an ideal switch unit of the switched reluctance motor.
样机实验结果验证IGBT是开关磁阻电动机理想的开关元件。
Selection and design of switch units in the driving device of switched reluctance motor, and calculation of its rated value are discussed.
本文讨论了开关磁阻电动机驱动装置中开关元件的选择、设计,及其额定值的计算。
Selection and design of switch units in the driving device of switched reluctance motor, and calculation of its rated value are discussed.
本文讨论了开关磁阻电动机驱动装置中开关元件的选择、设计,及其额定值的计算。
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