仿真结果表明,本文提出的方法很大程度上降低了开关磁阻电机的转矩脉动,低速时的控制效果较高速时更为明显。
The simulation results show that this method can reduce the torque ripple of SRM largely, and the control effect of lower speed is more obvious than higher speed situation.
开关磁阻电机结构简单、运行效率高、容错能力强,具有良好的高温和高速适应性,有着极其广泛的应用前景。
Switched reluctance motor has simple structure, high efficiency and satisfactory robustness. It is very suitable for running at high speeds, with high temperatures environments.
无轴承开关磁阻电机结构简单、运行效率高、容错能力强,具有良好的高温和高速适应性。
Bearingless switched reluctance machines (BSRM) were simply structure, high efficient and fail safe, it was suitable for running at high speed and high temperature.
以设计的12/8结构样机为控制对象,对磁悬浮开关磁阻电机高速数字 控制系统进行了硬件原理设计,包括功率变换器和 控制系统设计。
Take the designed sample BSRM of 12/8 structure as control object, hardware of high-speed digital control system is preliminary designed, including power converter and control system.
以设计的12/8结构样机为控制对象,对磁悬浮开关磁阻电机高速数字 控制系统进行了硬件原理设计,包括功率变换器和 控制系统设计。
Take the designed sample BSRM of 12/8 structure as control object, hardware of high-speed digital control system is preliminary designed, including power converter and control system.
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