本文讨论含有多重积分环节的无自平衡系统的辨识问题。
This paper deals with the identification of nonself-balanced system with multiple integral link.
但电压模型中的纯积分环节存在直流偏置和初始相位问题。
But the pure integrator of the voltage model has some disadvantages like DC bias and initial phase problems.
该方法取代了软件锁相中复杂的积分环节,使实现方法简化。
This method replaces the SPLL integral part of the complex to simplify the implementation method.
积分环节是控制理论中的典型单元,它的存在,导致了积分作用的产生。
Integral is a typical unit in control theory, whose existence leads to the integral role.
通过对单级倒立摆系统的简化模型分析,设计了带有积分环节的数字最优控制器。
Firstly, the simplified model of the single inverted pendulum system is analyzed, and then designed a digital optimal controller with integral function.
从中得到了一些有益结论,可进一步改善积分环节,提高电子电流互感器的测量精度。
Some beneficial conclusions are gained, which can improve the integral circuit further, the measurement accuracy of electronic current transducers is improved?
该控制器结构简单,易于实现,且不依赖对象数学模型,所包含的积分环节能有效观测并抑制对象中存在的不确定性。
The PID controller has a simple structure and doesn't rely on the math model, the integral action included observes and restrains the uncertainties of the plant.
该系统的积分环节可采用运放作为核心器件,通过适当选择电阻和电容大小与线圈的互感匹配,将0~500A的电流转换为0~10V的电压进行测量;
The intergral implement of this scheme can use operational amplifier and change current of 0-500A to voltage of 0-10V by selecting resistance and capacitance properly.
有效地处理奇异积分是边界元计算的一个重要环节。
It is an important link to treat the singular integration in the computation of BEM efficiently.
而此研究不仅局限在理论研究与仿真实验上,而且使构造混沌保密通信系统也成为重要的研究方向之一。设计混沌保密通信系统,数字积分器是重要环节。
However, this research is not only limited in theoretical research and simulation experiment, but also it is one of important research aspects for constructing chaotic secure communication system.
而此研究不仅局限在理论研究与仿真实验上,而且使构造混沌保密通信系统也成为重要的研究方向之一。设计混沌保密通信系统,数字积分器是重要环节。
However, this research is not only limited in theoretical research and simulation experiment, but also it is one of important research aspects for constructing chaotic secure communication system.
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