密谋计划的特点永磁直流电动机。
Program for plotting the characteristics of a permanent magnet DC motor.
目前,用于海洋水下机器人用的电动机大多数为永磁直流电动机。
At present, the motors used in the ocean robots are always the permanent magnet DC motor.
备件部分,如用于永磁直流电动机的刷子和弹簧现在可以很容易的被识别和选择。
Replacement parts such as brushes and springs for permanent magnet DC motors can now be easily identified and selected.
阐述航空高压270V稀土永磁直流电动机的设计原则、工艺措施及计算和试验结果。
This paper presents the designing rules of high voltage 270V rare earth permanent magnet DC motor, the measure of technology and the results of calculation and tests.
因此,在电机技术领域内,合理正确地设计永磁直流电动机就成为一个越来越重要的课题。
So in the field of motor technology, it is more and more important to accurately design PMDCM with reason.
为中科院沈阳自动化研究所机器人中心研制了海洋救助机器人推进器用钕铁硼永磁直流电动机。
The Nd -fe -b permanent magnet DC moto rs have been developed for ocean salvation robot of Shenyang Institute of Automation.
因此,用无刷直流电动机代替永磁直流电动机作为海洋水下机器人的推进器,无论是理论上还是实际上都具有重大意义。
So, to use permanent magnetic brushless DC motor as the propeller of the ocean robot instead of the permanent magnet DC motor has a great significance both in theory and in practice.
阐述一种用于全电飞机机电作动系统的双绕组永磁无刷直流电动机。
A permanent magnet brushless DC motor was presented, which will be used for a Electro-Mechanical Actuator (EMA) in a All-Electric Aircraft(AEA).
依据永磁无刷直流电动机的数学模型及其转矩特性,分析了转矩脉动产生的多种原因,并介绍了各种有效的控制策。
According to the mathematical model and torque characteristics of permanent magnet brushless DC motor, the reasons that give rise to torque ripple have been analyzed in this paper.
研究基于智能功率模块IPM构成的永磁无刷直流电动机新型控制器。
A new type of controller of PM brushless DC motor based on IntelligentPower Module (IPM) is developed.
本文从永磁无刷直流电动机的基本工作原理出发,分析了引起转矩脉动的原因并建立无刷直流电动机的动态数学模型。
From the basic operation principles of the permanent magnet brushless DC motor, this paper analyses the producing reasons of torque pulsation and establishes the mathematical model.
论文针对无刷直流电动机无传感器控制中存在的问题,分别从电机的换相、闭环控制和抗干扰等方面来探讨永磁无刷直流电动机的无传感器控制。
In allusion to the key problem on the control of BLDCM, the thesis discuss some methods about control of it in aspects of commutation of motor, closed-loop control and the disturbance restraint.
主要对永磁无刷直流电动机换相过程进行理论分析,得到引起换相转矩脉动的原因。
The cause of producing the commutation torque ripple was mainly found by means of analyzing the commutation process of permanent magnet brushless DC motor in theory.
本文对于反电动势波形接近正弦的永磁无刷直流电动机,提出一种基于六个离散位置信号的自同步svpwm控制方法,用于抑制电磁转矩脉动。
For the BLDCM which has a sinusoidal back EMF, this paper presents a self-synchronous SVPWM control method using six discrete position signals for minimizing torque ripple.
永磁无刷直流电动机磁场分布的定量确定对电机性能的预测极为重要。
Quantitative Determinding the distribution of magnetic field of permanent magnet brushless d. c. motor, is very important to analyze its properties.
永磁无刷直流电动机在驱动领域得到了越来越广泛的应用。
Permanent magnet brushless DC motor (BLDC) has been popularly used in drive area.
介绍永磁无刷直流电动机采用场路结合方法实现高精度计算机仿真的研究。
The computer simulation study with high-accuracy for the permanent magnet brushless DC motor based on the combination of electric circuit and electromagnetic field solution was presented in the paper.
提出了一种新型的车用高功率密度稀土永磁无刷直流电动机。
A novel high power density permanent magnet brushless DC motor for automobile is presented in this paper.
根据永磁同步电动机数学模型的特点,结合电流反馈型脉宽调制逆变驱动电器的结构,推导了无刷直流电动机系统的数学模型。
Mathematical model of BLDCM system is derived from the characteristic of mathematical model of PMSM and structure of inverting circuit of CRPWM.
高性能的永磁体如钐钴、钕铁硼的问世使得永磁无刷直流电动机的性能大大提高了。
The availability of high performance magnets, like samarium cobalt and neodymium-boron-iron, has made it possible to improve the performance of brushless dc motors significantly.
摘要单片机控制的永磁无刷直流电动机调速系统适用于电动自行车等小功率的工作情况。
SCM control of permanent magnet brushless DC motor speed control system applicable to electric bicycles, and other low-power work.
从有刷直流电动机的绕组模型出发 ,探讨了永磁无刷直流电动机相数的选择以及与之相适应的绕组联接 ,并就绕组的出力情况作了一些分析 。
This paper studies phase selecting and winding connection of brushless DC motor according to brush DC motor winding model, and analyses the effectiveness of winding on working condition.
然而永磁无刷直流电动机调速系统是一个非线性、多变量、时变系统,采用传统的PID控制方法进行控制,难以达到良好的控制效果。
However, since the Permanent Magnet BLDCM speed regulating system is a non-linear Multivariable time-varying one, traditional PID control methodology can not be utilized with good performance.
然而永磁无刷直流电动机调速系统是一个非线性、多变量、时变系统,采用传统的PID控制方法进行控制,难以达到良好的控制效果。
However, since the Permanent Magnet BLDCM speed regulating system is a non-linear Multivariable time-varying one, traditional PID control methodology can not be utilized with good performance.
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