According to BLDC mathematical model and the movement principle, a simulation model of BLDCM control system by the SIMULINK and PSB block of software MATLAB is built in this paper.
根据无刷直流电机的数学模型和运行原理,通过MATLAB软件的SIMULINK和PS B模块,搭建了电机及整个控制系统的仿真模型。
SIMULINK emulation module of Nonlinear Integrator and the nonlinear compensation emulation of its control system have been achieved adopting MATLAB language.
采用MATLAB语言,构造了非线性积分器的SIMULINK仿真模块,并作了控制系统非线性校正的仿真。
The paper applies the fuzzy control system toolbox based on MATLAB (SIMULINK) language, through the application of the electrical generator output voltage fuzzy control, supplies a simulation method.
运用了基于MATLAB (SIMULINK)语言的模糊控制系统工具箱,通过对发电机输出电压模糊控制的实现提供一种仿真方法。
The result of simulation in MATLAB/SIMULINK indicates that the controller evidently improves the dynamic property of control system. The controller is easily realized and applied in engineering.
进行MATLAB/SIMULINK仿真,仿真结果表明,该控制器明显地改善了控制系统的动态性能,易于实现,便于工程应用。
In simulation, this paper makes use of the most popular scientific software, MATLAB, and develops the corresponding simulating system with the SIMULINK in it.
在进行仿真的时候,本文采用了广泛应用的Matlab,使用Simulink功能开发了相应的仿真系统。
SIMULINK toolbox which can simulate the linear or nonlinear, continuous or discrete, or both of the hybrid systems, nonlinear system of complex simulation of the effect becomes more apparent.
其中的SIMULINK工具箱可以模拟线性或非线性、连续或离散或两者的混合系统,对复杂的非线性系统仿真模拟的效果更为明显。
The mathematical models of propulsion, lifting systems and hovercraft hull are built in the paper. The simulation model is established based on MATLAB/SIMULINK with the method of system simulation.
建立了某型全垫升气垫船推进、垫升系统及船体的数学模型,采用系统仿真的方法,建立了基于MATLAB/SIMULINK仿真平台的仿真模型。
The process of Rapid Prototyping of control system, implementing method of real- time control and key technique based on MATLAB/SIMULINK/RTW are described in detailed with concrete example.
结合具体实例详细介绍了基于MATLAB/SIMULINK/RTW的控制系统的快速成型过程和实时控制的实施方法及关键技术。
This paper introduced the principle of direct torque control and the algorithm of simulation. The simulation model of permanent magnet ac servo system is designed and studied based on MATLAB/SIMULINK.
本文介绍了直接转矩控制原理和仿真算法, 并在MATLAB/SIMULINK下设计永磁交流伺服系统的仿真模型,进行仿真研究。
The system simulation is done in SIMULINK. The design is done based on FPGA. With An optimized scheme which reuses multiplication and uses CORDIC algorithm is proposed.
通过三相锁相环在不同参数量值下和不同电网情况下的仿真分析了影响三相锁相环性能的参数,并对三相锁相环的系统性能做了分析、优化设计。
From the results, we can draw a conclusion that power bond graph together with SIMULINK is a shortcut to simulate the dynamical characteristics of hydraulic system.
结果表明,功率键合图和SIMULINK相结合是对液压系统动态特性进行仿真的一条捷径。
With the help of those established mathematical models, software SIMULINK simulates the dynamic performance of the system in displacement, speed and pressure regulation.
并根据系统的数学模型对铸浆机系统的位移、速度、压力运用SIMULINK进行动态仿真。
Finally, according to the inertia of the disc brake electricity mathematical model analysis, the use of MATLAB software SIMULINK tool of inertia system simulation.
文章的最后根据对盘式制动器电惯量模拟的数学模型的分析,使用MATLAB软件中的SIMULINK工具箱对电惯量模拟系统进行仿真。
The paper builds an integrated simulation model including respective subsystems for three phase shunt power active harmonic compensation system based on SIMULINK function of MATLAB.
本文在基于MATLAB的SIMULINK为三相并联型电力有源谐波补偿系统建立了一个包括各个子系统在内的整体仿真模型。
The computer language of MATLAB has many merits on simulation and analysis of control system. In this article the method of the SIMULINK model on MATLAB is introduced.
MATLAB语言在控制系统仿真与分析方面具有众多优点,文章具体分析了基于MATLAB语言的SIMULINK模型的仿真求解方法。
Regarding to the time lag of air supply system software MATLAB / SIMULINK were utilized to create the simulation model of fuel cell dynamic output performance as power level changes.
在考虑空气系统的时间滞后基础上,基于集总参数模型利用MATLAB /SIMULINK软件平台建立电池的瞬态响应仿真模型。
This paper shows that it is possible to model and simul ate any CIM vector controlled system used for agricultural pump or fan by means of advanced MATLAB and SIMULINK platform.
使用当前先进的MATLAB语言及SIMULINK环境,对农村中大量使用的拖动风机与水泵类负载运行的笼型感应电动机(CIM)矢量控制系统,进行了建模和仿真。
A dynamic simulation tool, SIMULINK software package in MATLAB, is taken as the development tool, and applied in the dynamic response computation of the hydraulic servo closed-loop control system.
以MATLAB中动态仿真工具SIMULINK软件包为开发工具,将其应用于该液压伺服闭环控制系统的动态响应计算中,针对上述两种闭环控制系统,给出了考虑干扰量情况下的SIMULINK仿真方法。
Using the MATLAB, this paper introduces an application in harmonics and reactive-current compensation for an active filter system, which based on the adaptive simulink in signal prediction.
本设计运用MATLAB语言实现信号预测模型的自适应仿真在有源滤波系统的谐波和无功电流补偿中的应用。
Through the application of Matlab in Simulink toolbox of chaotic lu system simulation analysis shows that impulse control is an effective stabilization of chaotic systems by perturbation method.
通过应用Matlab中Simulink工具箱对lu混沌系统进行仿真分析,说明脉冲控制是有效的镇定受扰动混沌系统的方法。
A model were deduced, in detail, about servo pilot system according to the definition of load flow and load pressure were analyzed using simulink technology in theoretic.
推导了伺服调节器系统在负载压力、负载流量定义上的数学模型,并对其作了分析。
It is designed that the main circuit and control system using the IGBT as its switch element based on the DC750V traction transducer of metro vehicles. The system is also simulated by MATLAB/SIMULINK.
以地铁车辆用DC750V牵引变频器为例,采用IGBT作为主要开关元件设计了逆变器主电路及控制系统,并利用MATLAB/SIMULINK进行了仿真。
Using fuzzy control method in starting system establishing a simulation model in MATLAB SIMULINK and having the corresponding simulation and simulation analysis.
启动系统采用模糊控制方法,利用MATLABSIMULINK建立系统的数学仿真模型,并对仿真结果进行了分析。
The result of Simulink is very satisfied, and the research of the FCL based on flux compensation will play a very important role in the development of power system in the future.
仿真的结果证明了基于磁通补偿的大容量故障电流限制器方案的提出和研究,对高压和超高压输电性能的革新改造具有重要的技术作用和现实意义。
To reduce the wind disturbance error, the wind disturbance regular pattern is studied using a missile simulation system based on the SIMULINK.
为了减小再入段风干扰造成的误差,利用在Simulink中建立的数字打靶平台对它进行了研究。
A system model can be established easily using aircraft synchronous generator model built by SIMULINK together with PSB.
用SIMULINK建立起同步发电机模型,并将其与PS B模块联合使用,能方便灵活地建立起发电机故障暂态模型。
A system model can be established easily using aircraft synchronous generator model built by SIMULINK together with PSB.
用SIMULINK建立起同步发电机模型,并将其与PS B模块联合使用,能方便灵活地建立起发电机故障暂态模型。
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