相位裕量是控制系统设计的一个极为重要的参数。
Phase tolerance is an important parameter in designing control systems.
锁相环路是完成两个电信号相位同步的反馈控制系统,适宜于变流装置的同步触发电路之中。
The phase lock loop is a feedback control system that makes two telecommunication signals' phase synchronization, suitable to the synchronous trigger circuit of the convertor device.
提出了采用相位扫描方法加工变栅距(VLS)光栅的基本原理,给出了VLS光栅刻划机的控制系统,并通过刻划实验对这一新方法进行了验证。
The control system of the VLS gratings ruling engine is given also and a ruling experiment of the VLS gratings is made to examine the novel method.
提出了零相位跟踪控制算法,使控制系统对给定非国特殊曲线具有很高的跟踪精度,从而保证了非圆轴类表面磨削加工精度。
An adaptive zero-phase tracking control algorithm is developed, and with which the servo system is able to track accurately a given non-circular high order special curves.
为同时抑制时滞及非最小相位系统的超、负调和加快系统响应,本文提出一种基于模糊推理的智能内模控制系统。
Aiming to decrease overshoot, undershoot and settling time of non-minimum phase system with time delay, this paper proposes an intelligent IMC control system based on fuzzy inference.
锁相环路是一种能实现相位自动锁定的控制系统,主要用于频率合成及跟踪解调系统。
The phase- locked loop is one kind of control system which is able to achieve phase automatic lock, to compose frequency and to trace demodulation system.
该控制策略通过模拟交通指挥者实际进行交通控制的特点,使控制系统能够实时根据各相位车辆的多少进行信号的智能控制。
Through imitating the ways of traffic police managing the traffic, this signal control strategy has the ability of intelligent phase controlling in the light of the real traffic flow.
锁相系统是一个能够跟踪输入信号频率和相位的闭环自动控制系统。
The phase-locked system is a closed loop automatic control system that can follow the frequency and phase of the input signals.
水轮机调速系统是典型的具有非最小相位、非线性、时变特性的复杂控制系统,难以建立精确的数学模型。
To the question of the hydraulic turbine regulating system, this paper discusses fuzzy neural network control (FNNC) based on the character of fuzzy logic and neural network theory.
位置回路采用PD控制算法,以增加系统相位裕度,减弱系统振荡,保证控制系统具有良好的动态特性。
The position loop use the PD control algorithm, to increase the system's phase margin, reduce the system's oscillation and ensure that the control system has good dynamic characteristics.
探讨了关于非最小相位系统的参考模型自适应控制系统(MRACS)的一种设计方法。
This paper is concerned with a design of a model refenrence adaptive control system (MRACS)for a nonminimum phase system.
探讨了关于非最小相位系统的参考模型自适应控制系统(MRACS)的一种设计方法。
This paper is concerned with a design of a model refenrence adaptive control system (MRACS)for a nonminimum phase system.
应用推荐