应用于无刷发电机。励磁电机枢的整流。
Applied to brushless generator. Excitation rectifier hub motors.
样机,同意与仿真分析实验结果,也验证了建议的直流无刷发电机系统的功能。
Experimental results on prototype machine, which agree well with the simulation analysis, also verify the feature of the proposed BLDC generator system.
本文分析了多相无刷直流发电机的换向过程。
The paper analyses the commutation processes in polyphase brushless DC generators.
提出了一种可控整流电路,它与永磁方波电机联合构成一种简单、高性能的无刷直流发电机。
A simple and high - Performance brushless DC generator consisting of a controlled rectifying circuit and permanent magnet square wave motor is Presented.
无刷交流励磁机为旋转电枢式的同步发电机,旋转整流器为模块式的三相整流桥。
AC brushless synchronous excitation generator is a rotating-armature synchronous generator, which has a module of three-phase rectification bridge.
主发电机采用无刷励磁。
作为柴油机和汽油机用的无刷同步发电机的主要供应商。
We are a major supplier of brushless synchronous generators for diesel and gas engines.
无刷励磁系统是无刷励磁同步发电机的重要组成部分,它是影响供电质量的一个重要方面。
Brushless exciter is a very important part of brushless synchronous generator, and it is a very important factor to determined the quality of generator.
在相复励旋硅式无刷同步励磁电机中,如果在正常运行过程中出现硅整流管开路或短路的故障,必将危及到发电机组的运行。
In the rotating-diode phase compound excitation Brushless synchronous machine, if one diode appears fault, such as opening or shorting during the normal operating, it will do harm to the generator.
本文正是在这样的背景之下,在深入了解当今无刷双馈及风力发电技术的基础上,对无刷双馈风力发电机控制系统进行了研究。
Under the background, on the basis of the study of brushless doubly-fed machine and wind power technology, control system for wind-driven brushless doubly-fed generator was studied in this paper.
我国大型汽轮发电机高起始响应无刷励磁系统装置的生产现已达到了世界先进水平。
The production of brushless excitation system devices with high initial response for large turbogenerators in China has achieved advanced level in the world.
作为未来主流发电机种的无刷双馈发电机有着诸多优点,但它也是一个高阶、非线性、强耦合的多变量复杂系统。
As the mainstream generator in the future, brushless doubly-fed machine has many advantage, but it's also high order, nonlinear, strong coupling and multivariate dynamical system.
因此,研究发电用的无刷双馈发电机,具有重要的理论意义和实用价值。
And it has important theoretical and practical value on studying the brushless doubly-fed generator.
无刷双馈交流励磁系统中,作为风力发电系统核心部分的发电机,处于举足轻重的地位。发电机的性能直接影响着整个风力发电系统的性能及效率。
The generator, as the key part of wind power generation system, plays very important role, and its performances directly affect the efficiency and quality of the whole system.
本文首先对包括风力机、无刷双馈发电机的风力发电系统进行建模,并通过同步坐标变换分解为两个解耦子系统。
A wind energy conversion system (WECS) model is presented, including wind turbine and brushless doubly-fed machine working as a generator.
本文以船舶柴油发电机为控制对象,应用MATL AB软件对船舶柴油发电机控制进行了建模,对励磁模块进行了设计,发电机励磁系统是具有复励功能的无刷励磁。
Using the automatic system of Marine diesel-generator as a control object, the author builds up Marine diesel-generator control model and designs the excitation module by software MATLAB.
讨论了一种采用模糊控制技术的数字调压器,并将其应用于无刷交流发电机上。
A digital voltage regulator based on fuzzy technique is presented. The regulator has been applied to a brushless AC generator.
无刷双馈电机除了可作为变速恒频发电机外,还特别适用于大容量的交流调速系统。
The BDFM is suitable to ac speed control system of great capacity besides working as VSCF generator.
随后,进行了双定子无刷双馈发电机实验系统的开环发电实验,实现了该发电系统的变速恒频发电。
Subsequently, an open loop experiment has been tested which verified the feasibility of the experimental generation system can run in variable speed and constant frequency condition.
双定子无刷双馈发电机具有无刷化和可进行变速恒频发电的特点,非常适合于风力发电系统,对其发电系统的研究,将使这种新型电机能够尽快地应用于实际之中。
Twin stator brushless doubly fed machine generation system which has no electrical brush and can running in variable speed and constant frequency condition is very suitable for wind power generation.
提出一种基于s7—2 0 0可编程序控制器的同步发电机无刷励磁调节系统,详细分析了该系统的硬件结构和软件设计。
This paper presents a synchronous generator excitation regulation system using S7-200 programmable controller (PLC), and analyzes the system structure and software scheme at details.
主要介绍了核电站百万千瓦级,不同无刷励磁方式下汽轮发电机组转子温度的测量方法。
The measuring methods of generators' rotor according to different brushless excitation types in nuclear power plants of 1 000 MW are introduced.
主要介绍了核电站百万千瓦级,不同无刷励磁方式下汽轮发电机组转子温度的测量方法。
The measuring methods of generators' rotor according to different brushless excitation types in nuclear power plants of 1 000 MW are introduced.
应用推荐