文中对这种双重磁检测器的开环特性进行了理论计算和试验测试。
The open loop characteristic of the double detector is calculated in theory and the double magnetic detector comparator is constructed for testing and performance evaluation.
由于二次调节的开环不稳定特性,必须为其设置自动调节系统。
Automatic regulation must be added owing to the unstable characteristics of the open loop secondary system.
通过各种阶跃输入下的开环响应试验,对烘干过程的动态特性作了调研。
The dynamics of drying process is investigated by step change response in a open-loop.
仿真结果显示,运放开环与闭环时的频率响应、输出饱和、转换速率等特性得到了真实的反映。
The simulation results show the open-loop and closed-loop frequency responses, output saturation, and the slew-rate of operational amplifier are truly reflected by this model.
并通过实验,对所建立的动力学模型及开环控制下平台的实际动态特性进行了验证。
And the experimental tests had been carried out to verify the established model as well as the dynamic characteristics under opening loop control.
本文介绍了一种用五段折线逼近传感器非线性特性的开环补偿方法。
An opening loop compensation method to approach sensor's nonlinearity characteristic by using five straight-lines is introduced in this paper.
设计的虚拟仪器既适用于对开环系统又适用于对闭环系统的频率特性进行测试。
Using this virtual instrument, the frequency characteristics of both open-loop system and closed-loop system can be measured.
针对一类具有自衡特性的SISO系统,借助其开环阶跃输入稳态响应所提供的信息设计了一个新颖的PD型模糊控制器。
As for the SISO system with self-balance, a new PD fuzzy controller based on the steady response of its open loop step input is introduced.
通过静态设计、系统元件的选型,静态特性的分析和控制方案的选择,为开环控制打下基础。
In static design, we choose important system elements and determine system control scheme, which provide good basis for the open-loop control and closed-loop control.
对系统的动态响应特性进行了定性描述,并绘制了开环系统的波德图。
The text makes dynamic particular analysis of the response of the system, also drawing the Bode figure of open loop system.
文章给出了绘制开环系统对数相频特性曲线的简便方法。
In this paper, a simple method of plotting logarithmic phase frequency response curve for open-loop systems is advanced.
进给速度可通过改变驱动脉冲的频率调节,机构在高频驱动大位移动作时亦表现出准确的步进特性,可用于小型机电系统的开环进给驱动。
The friction drive mechanism moves well even when driven at high frequency and with long strokes, so it can be used with open-loop control systems for micro displacement.
在非接触电能传输系统中,由于电能单向传输特性,系统存在电能回馈困难、系统开环运行效率低等问题。
In contactless power transfer system, attribute to unidirectional energy transfer, there are many problems such as energy feedback difficultly and low efficiency brought by system open-loop running.
本文提出一种以系统开环频率特性为基础的调节器参数的解析整定法。
This paper presents an analytical method for determining the controller parameters based on the open-loop frequency transfer function of regulating systems.
本文提出一种以系统开环频率特性为基础的调节器参数的解析整定法。
This paper presents an analytical method for determining the controller parameters based on the open-loop frequency transfer function of regulating systems.
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