控制系统模型包括控制策略、传感器和执行器模型,本文选用的控制策略为PID调节器。
The control system model consists of control strategy, sensors and actuators sub models. The control strategy is a PID controller.
飞兆半导体模型的100是一种高流动性精密压力调节器适用于需要高性能的设计,大流量和准确的过程控制。
The Fairchild Model 100 is a high flow precision pressure regulator designed for applications that require high performance, large volume flow and accurate process control.
由于新系统可以与冶炼弧流模型紧密结合,因此保证了在各冶炼阶段调节器性能的最优。
The new system can combine with smelting arc current model, so optimum is ensured for performance of regulator in each smelting stage.
实践表明,无模型控制器有很好的“自解耦功能”,而PID调节器缺乏这种功能。
In practice, one can see that model free controller has the capacity of "self-decoupling", which the PID regulator lack.
实现实际转子磁链定向矢量控制系统的关键是磁链模型的计算精度和环路PI调节器的正确整定。
The key to realize a practical rotor field oriented vector control system of inductive motor is both the calculative precision of flux model and the adjusting of PI regulator.
本文运用实际系统向二阶模型逼近的方法,导出了求解调节器参数的矩阵方程,并编制了相应的计算机辅助设计的程序。
In this paper, a matrix equation for solving regulator parameters is derived, based on approximating the practical system to a typical two-order model. Corresponding CAD program is provided.
本文推导了在时域内对电液伺服道路模拟试验台进行随机波形再现控制时,基于CARMA模型的,单输入单输出系统和多输入多输出系统的,隐式最小方差自校正调节器。
To reappear stochastic waveform on ESVRST in time field, the minimum variance implicit self-tuning regulators of SISO and MIMO systems are deduced based on CARMA models in this paper.
在建立异步电动机和变频器数学模型的基础上,按照工程设计法设计出PI调节器,并进行了双闭环控制实验。
On the base of ma thematic model of induction motor and inverter, engineering designing method is used to design the PI regulator, and experiments on the double-closed-loops system is carried out.
本文提出了一种应用模型参考自适应原理的变参数PID调节器,适用于单输入——单输出的一阶、二阶控制系统。
This paper proposes a PID regulator of changeable parameters applying model reference adaptive principle. It is suitable for one-order, two-order control systems of single input and single output.
建立了某涡扇发动机气动热力学模型和该型发动机综合电子调节器、主燃油泵调节器的实验室工作环境。
Thermodynamics model of some turbofan engine was established. Working condition of Engine Electronic Controller (EEC) and main fuel pump regulator in laboratory were set up.
飞兆半导体模型4000ABP的气动精密背压调节器是一个没有排气设计的稳压器,精确地控制系统的反压。
The Fairchild Model 4000ABP Pneumatic Precision Back Pressure Regulator is a No Bleed design regulator that precisely controls system back pressure.
如噪波调节器和倒角的添加可以使整个模型变得不一样,即使肉眼看不出来。
Small things like noise modifiers and edge chamfers can really make a difference later on, even if you don't quite see it in the viewport.
在辩识模型的基础上按最小方差控制原理设计了一离散型自动电压调节器。
On the base of the identified model this paper also presents a discrete automatic voltage regulator by minimum variance control principles.
利用积分流形模型化简(IMMD)的思想,给出了含动态电压调节器(DVR)配电网络的动态电压分析方法。
Integral manifold model reduction (IMMD) has been applied for the analysis of distribution system with dynamic voltage regulator (DVR) in the paper.
对于控制系统,建立了传感器、节距调节器、转速PI控制器、转矩PI控制器、节距PI控制器等的数学模型。
To the control system, The mathematics model of transducers, blade actuator, PI controller to rotate speed, PI controller to the torque, PI controller to the blade angle are established.
飞兆半导体模型10BP的回压调节器提供40立方英尺,68m3/hr流量。
The Fairchild Model 10BP back pressure regulator offers 40 SCFM, 68m3/hr flow capacity.
该控制器用具有改进学习算法的神经网络作pid参数调节器,用模糊神经网络对被控对象进行模型辨识。
In this controller, an improved study algorithm is adopted as the PID parameter regulator, and a fuzzy network is employed to identify the controlled objects.
建立了SVC系统的数学模型,分析了闭环控制系统的稳定性条件,整定计算了PI调节器的参数。
The mathematical model of SVC system was established, the stability conditions of close-loop control system were analyzed, and the parameters of PI regulator were adjusted.
在预测控制的算法机理上给出了位置控制系统的预测模型,并在此基础上进一步介绍了基于预测控制理论的位置调节器程序的设计方法。
A predictive model of positioning system using predictive control algorithm is presented. The software design method of the positioner based on predictive control theory is introduced.
建立了整定水位PID调节器的控制模型,优化变速泵控制前池水位变化系统的动态品质。
Though setting up the model to calibrating the level control parameter PID, the system dynamic performances is optimized in regulating the upper pool water level by variable speed pumps.
然后根据交流侧和直流侧的功率平衡方程,推导了电压环的小信号模型。最后基于该模型设计了一种高动态性能的直流电压调节器。
Subsequently, a novel controller for DC bus voltage regulation is put forward according to the small signal model based on the instantaneous power balance in AC and DC sides of three-phase SAPF.
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。
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.
经对某航空发动机电子综合调节器燃油通道动态过程参数模型辨识的实例,验证了该算法精确快速。
Through the analysis of a system identification example of X aero-engine EEC (engine electronic controller) , the result shows this.
将模块封装打包建立涡扇发动机控制系统模型库,并将之组成为完整的发动机及调节器系统综合仿真平台。
Every module is built, tested and encapsulated into the aero-engine control system module library. Maked use of the module library, the engine system model can be established easily.
飞兆半导体模型的10和81的理想选择通用精密压力调节器的应用,而紧凑的模型30和80提供小封装的高精度。
The Fairchild Models 10 and 81 are ideal for general precision pressure regulator applications, while the compact Models 30 and 80 offer high precision in a small package.
曙光4000A的Fairchild模型是一个无排气高流量精密压力调节器适用于需要高性能,低功耗和准确的过程控制设计。
The Fairchild Model 4000A is a No Bleed High Flow Precision Pressure Regulator designed for applications that require high performance, very low consumption and accurate process control.
本文针对三自由度直升机模型设计了基于线性二次型调节器(LQR)和模糊逻辑的鲁棒控制器。
According to the three degree of freedom (3dof) helicopter model, this paper present a novel robust controler based on LQR and fuzzy theory.
本文针对三自由度直升机模型设计了基于线性二次型调节器(LQR)和模糊逻辑的鲁棒控制器。
According to the three degree of freedom (3dof) helicopter model, this paper present a novel robust controler based on LQR and fuzzy theory.
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