分布控制是一种先进的系统控制方式。
The distributed computer control system is an advanced control system.
研究了主动雷达成像导引头的工作模式、成像方法和系统控制方式。
The operation mode, imaging method and system′s control problem of a active radar imaging seeker are investigated.
本论文是基于“三峡机电设备”课题的子课题“励磁系统控制方式的研究”。
The main subject of this dissertation is the research on the control mode of excitation system, which is a subsection of Sanxia Electromechanical Equipment Research.
分析结果表明,对于常用的水系统控制方式而言,水泵转速(流量)比与轴功率比的三次幂关系不成立;
The results show that for the common pump control methods, the third power relation between the pump rotate speed(water volume) ratio and the shaft power ratio is not true;
克服了原系统控制方式简单、隐患点多,事故频发,停机频繁、系统稳定性差、存在极大的事故隐患等诸多缺点。
It overcomes many shortages of former system, such as simplicity of control mode, many hidden troubles, high-frequency accidences, frequent stops, bad system stability, great accident danger.
介绍了摊铺机行驶控制系统的基本要求,以单边行驶回路为例探讨了其工作原理; 根据摊铺机对行驶速度的要求,分析了恒速控制技术,探讨了行驶系统控制方式。
The principle of phase lock loop and its application in the motor power-measuring system are introduced, furthermore the design and analysis of the circuit for constant speed control are provided.
为了便于丰控系统控制扫描转换器的输出图像的亮度、对比度和色饱和度,扫描转换器提供了RS-422和RS-232两种通信方式。
The scanning converter supplies two communicative ways:RS-422 and RS-232. Through these ways the main controlling system controls the brightness, contrast, saturation of output pictures.
智能采样控制方式能够很好的实现带有大延迟环节的系统控制。
Method of intelligent sampling control is very useful for controlling the time delay system.
采用按钮集中系统控制,具有手动调节及半自动两种操作方式。
Use pushbuttons system control, with manual adjustment and automatic two kinds of mode of operation.
叙述了由微机系统控制的CRT波形显示方式,介绍了字符和波形显示接口电路。
The forms of CRT waveform display controlled by microcomputer system is described. The interface for displays of the characters and waveform is introduced.
对一次冷冻水变频节能效果定性分析,指出实际的节能效果取决于控制方式,而且对系统控制设备的选取也有一定的要求。
A qualitative analysis on energy saving for VPF is made in this paper, points out actual saving depends on control mode and appropriate equipment.
该系统控制策略以九区图为基础,并且在容易引起频繁动作的边界上采用人工神经网络预测变压器分接头调节和电容器投切后的电压无功,以决定采用何种控制方式。
The control strategy is based on nine-zone diagram and combined with artificial neural network, which makes a decision about the change of transformer taps and capacitor switching.
该系统控制单元采用PLC,用触摸屏作为人机对话,包含了方式选择、数据采集、调平示意等十几个界面。
The control-unit of equipment adopt the PLC, the interface of man-machine is the touch screen that consist of the mode select, the data acquisition and the abridged general view and so on.
详细阐述了系统工作设计思想与工作原理,并对其中的关键技术黑白条形码编码方式、相位比较模块与系统控制程序等进行了详细分析。
The design concept and working principle of the system are discussed, and the key technologies including black-white bar coding, phase comparison modules and system control program are analyzed.
详细阐述了系统工作设计思想与工作原理,并对其中的关键技术黑白条形码编码方式、相位比较模块与系统控制程序等进行了详细分析。
The design concept and working principle of the system are discussed, and the key technologies including black-white bar coding, phase comparison modules and system control program are analyzed.
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