The influence of different rotor structure to the reluctance torque is analyzed, and given the selection principle of the rotor structure.
分析了不同转子磁路结构对电动机磁阻转矩的影响,确定了地铁用永磁同步电动机转子磁路结构的选用原则。
It deduces the direct torque control for Switched Reluctance motor compared with the method used on the inductive motor.
在类比了异步电机的基础上推导了开关磁阻电机的直接转矩控制方法。
It is presented a method using fuzzy adaptive system to obtain torque ripple reduction in switched reluctance motor.
介绍用模糊自适应系统控制开关磁阻电机使转矩脉动减小的方法。
The torque of switched reluctance motor is a highly non linear function depends on phase current and rotor position, so the torque ripple occurs.
开关磁阻电动机的转矩是各相电流与转子位置的高度非线性函数,这使得电动机的转矩容易出现脉动。
In this paper, a direct instantaneous torque control (DITC) of switched reluctance motor (SRM) with a four-level converter is presented.
主要论述了基于四电平功率变换电路的开关磁阻电机直接瞬时转矩控制。
Based on an analysis of the torque characteristic of switched reluctance motor and a comparison of torque models and phase torque distribution laws, this paper sets up a dynamic torque model.
本文在研究开关磁阻电动机的转矩特点,对比分析各种转矩模型和转矩分配函数的基础上,建立了动态转矩模型。
This dissertation presents a type of low speed and high torque motor-semiconductor converting low speed reluctance motor (SCLRM) with novel structure and principle for the first time.
本文首次提出了一种新型结构原理的低速大力矩电动机-半导体换流低速磁阻电动机(SCLRM)。
To overcome the disadvantage of solving torque ripple of switched reluctance motor based on average torque control method, in this paper a new one called transient torque control is presented.
针对以平均转矩控制开关磁阻电机转矩脉动存在的不足,提出了基于瞬时转矩控制的转矩脉动最小化方案。
To overcome the disadvantage of higher torque ripple in switched reluctance motor (SRM) based on average torque control technique, one method of instantaneous torque control is presented.
针对平均转矩控制的开关磁阻电动机(SRM)转矩脉动大的问题,提出了一种瞬时转矩控制的方案。
Simulation on the torque and the speed of switched reluctance motor shows that the control technology can effectively reduce the torque ripple of the motor, while improving the system response speed.
仿真结果表明,离散滑模变结构控制技术能有效地降低开关磁阻电机的转矩脉动,并且可以提高系统的响应速度。
Experiments for the prototype indicate that using the structure of double-stator and three-phase series magnetic circuit, the hybrid variable reluctance motor has higher ratio of torque to volume.
为原型的实验表明,采用双定子和三相串联磁路的结构,混合可变磁阻电机的转矩与体积的比例较高。
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。
As a result, searching for the practical torque ripple reduction methods has become one of the focuses in the research field of Switched reluctance motor.
因此,探索实用的降低开关磁阻电机转矩脉动的控制策略成为当前开关磁阻电机研究领域的热点之一。
The thesis is aimed to apply the Direct Torque Control on the Switched Reluctance Motor.
本文旨在将直接转矩控制策略应用于开关磁阻电机。
The torque ripple of switched reluctance motor is a crucial problem in its application.
开关磁阻电机转矩脉动是在其应用程序中的一个关键问题。
The experiments show that the switched reluctance motor drive designed in this paper has the advantage of high efficiency, real-time, good dynamic performance, low noise and less torque tremble.
实验表明,本文设计的开关磁阻电机调速系统具有高效率、实时性好、动态性能好、噪声低、转距脉动明显减少等优点。
The experiments show that the switched reluctance motor drive designed in this paper has the advantage of high efficiency, real-time, good dynamic performance, low noise and less torque tremble.
实验表明,本文设计的开关磁阻电机调速系统具有高效率、实时性好、动态性能好、噪声低、转距脉动明显减少等优点。
应用推荐