同时,通过削弱量化误差以及在设定点附近引入PI补偿控制器,提高了系统的动态、静态性能指标。
The dynamic and static performance index is greatly improved through decreasing quantization errors and combining with PI controller that operate nearby set point.
除了机组自身非线性动态外,本文指出控制器约束是系统非线性的另一重要因素,采用一些简单的抗回绕技术可以补偿这种非线性因素。
Despite the nonlinear dynamics, it is shown that the controller constraint is another important factor of system nonlinearities, which can be compensated using some simple antiwindup techniques.
本文提出了能同时改善电力系统功角稳定和装设点电压动态特性的用于静止无功补偿器(svc)的变结构控制器设计方法。
A variable structure controller for Static var Compensator (SVC) which can improve power Angle stability of power system and local voltage characteristics of SVC is proposed.
本文讨论了一种具有在线误差补偿的非线性动态逆控制器设计方案。
In this paper, it is discussed how to design an online error compensator for a fight control system by the method of nonlinear dynamic inverse.
TSC的核心技术是动态无功补偿控制器和晶闸管过零触发模块。
The important parts of the TSC are the dynamic reactive power compensation controller and the thyristor trigger circuit.
在QFT的基础上,提出了一种QFT和神经网络并行控制的方案,以QFT为主控制器,神经网络进行动态误差补偿。
On the basis of QFT, a method for parallel control of QFT and neural network is presented, which consists of a QFT controller and a network controller used to compensate the dynamic error.
同时考虑两轴联动的动态配合,设计了变增益交叉耦合控制器,补偿轮廓误差。
In consideration of the dynamic cooperation of the two axes, a variant gain cross-coupling-controller is designed to minimize contour error.
同时考虑两轴联动的动态配合,设计了变增益交叉耦合控制器,补偿轮廓误差。
In consideration of the dynamic cooperation of the two axes, a variant gain cross-coupling-controller is designed to minimize contour error.
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