This paper presents a double loop controller for VVVF.
介绍一种双闭环控制变频调速系统。
The system is composed of single loop controller, programmable controller and power control module.
该系统由单回程调节器、可编程控制器与功率控制模块组成。
GPC is used to design outside loop controller to realize the system performance and improve the robust.
外回路采用GPC控制器,实现对系统的各种性能要求并且提高鲁棒性。
The NNC is composed of an inside loop controller and an outside loop one in accordance with the two time scale.
基于时标分离的原则,神经控制器被设计为内环控制器和外环控制器两个部分。
Single input and single output loop controller using one sensor is widely applied in the industrial control field.
采用单一传感器的单输入单输出回路控制器在工业控制领域应用非常广泛。
The inner-loop controller is composed of a third-order ESO, a linear proportional-derivative control law and a static decoupling law.
内环控制器由三阶ESO、线性比例微分控制律和静态解耦律组成。
With the implementation of the multiple feedback loop controller, the Microgrid can export high-quality power under the grid-connected mode.
实施的多重反馈回路控制器,微电网可以输出高品质电源的电网连接模式下。
This paper proposed a new loop controller optimization method based on the study of the common solution method for mine ventilation network.
在分析常用的矿井通风网路解算方法的基础上,提出了一种新的回路调节优化方法。
So the anticipant system's responding characteristic should be appropriately determined when designing a closed loop controller for the decoupled system.
在对此复合系统设计闭环控制器时需要确定合理的期望响应特性。
Base on the inverter model, the parameter of these different control loop controller is designed and the digital control achieved through DSP TMS320LF2407A.
在分析逆变器模型的基础上设计了各控制器参数,并通过芯片TMS320 LF 2407 A实现了数字控制算法。
Then this paper chooses the suitable variable to design the voltage and current double closed-loop controller, which has well stability and fast transient response.
对电源系统进行分析,选择合适变量设计一个稳定性好、动态响应快的电压电流双闭环控制。
This paper discussed the structure and principle of EPS system, established the state space equation of EPS, designed PID close loop controller, and set the parameters.
阐述了EPS系统的结构原理,建立了EPS状态空间方程,设计了PID闭环控制器,并对参数进行了整定。
At the same time, the current loop controller traces the change of given current rapidly, so that the system can adapt to variational environment. Improved its speed performance.
同时,电流闭环控制器可以快速地跟踪给定电流,因此系统可以自适应地调节环境变化,提高了无刷直流电机调速性能。
The composition of the temperature monitoring system for the core rod in seamless steel tube production and the basic application of MODCELL Multiple-Loop Controller are introduced.
介绍在无缝钢管生产中芯棒温度测控系统的组成及MODCELL多回路控制器的基本应用。
An approximate non-minimum phase transfer function of magnetic suspension bearing is established, on the basis of that, a closed-loop controller is designed and makes the whole system stable.
建立了磁浮轴承的近似非最小相位传递函数模型,并基于此模型设计了保证系统稳定的闭环控制器。
According to the singularity perturbation theory, dynamic inversion is adopted to design the basic attitude controller including fast inverse loop and slow inverse loop.
利用多重时间尺度奇异摄动理论,结合非线性动态逆方法设计了基本姿态控制器,包括快逆回路和慢逆回路两部分。
This paper presents the design method of this type of nonlinear adaptive control system and its out loop trajectory tracking controller.
本文主要介绍这种非线性自适应控制系统及其外回路航迹跟踪控制器的设计问题。
The fuzzy adaptive controller designed based on this method can guarantees that the closed-loop system is globally stable and the tracking error converges to a neighborhood of zero.
在此基础上设计的模糊自适应控制器能够保证整个闭环系统稳定且跟踪误差收敛到零的一个邻域内。
In order to speed up the simulation process, has established the SG1524B chip behavior model according to the switching power controller behavior in closed-loop system.
在闭环系统中为了加快仿真过程,根据开关电源控制器的行为建立了SG1524 B芯片的行为模型。
The paper proposes an approach to design a dual-loop variable structure controller for a particular class of singularly perturbed dynamic systems.
针对一类典型的奇异摄动动力学系统提出了双回路变结构控制器的设计方法。
Then, this thesis applies IP control algorithm to change controller in outer loop but not in inner loop based on basic double closed loop control system.
然后,本文在传统双闭环控制的基础上,内环的控制算法不变,改变外环控制器的设计算法,主要采用IP控制方案。
It makes good preparations for designing a controller and forming a control loop.
为进一步设计控制器,形成闭环控制作准备。
The closed-loop system is proved to be bounded-input and bounded-output stable when the multiple model adaptive controller is used.
可以证明多模型自适应控制器能够保证闭环系统是输入输出有界稳定的。
Emphasis is laid on the design method and implementation of the controller and adaptive loop.
文章着重介绍了控制器和自适应回路的设计方法及其系统的实现。
Keeping the zeros and poles of the PID unchanged, an adaptive PID controller is presented using the proposed recursive algorithm in the closed-loop system.
在确保PID零极点不变的基础上,将开环递推整定算法引入到闭环系统中,提出了自适应pid控制算法。
Based on forenamed knowledge, the paper designs a double-loop NPID excitation controller, which has parallel feedback of voltage and error of rotate-speed.
在上述基础上,本文设计了一个具有机端电压反馈和转速偏差反馈的双环非线性PID控制器。
Next, according to the weapon system request, application frequency range analytic method, has designed the roll stabilization loop using the PD controller.
其次,根据总体要求,应用频域分析法,设计了PD控制滚转稳定回路;
Next, according to the weapon system request, application frequency range analytic method, has designed the roll stabilization loop using the PD controller.
其次,根据总体要求,应用频域分析法,设计了PD控制滚转稳定回路;
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