一条这样的输电线路可以传输多达6.4万千瓦的电力,使得它更重要的是,在产生电力的始端就显得稳定可靠。
A single such line can carry up to 6.4 gigawatts of power, which makes it even more important that generation at its starting point is stable and reliable.
一个网络线路级协议,可以让客户端应用与消息代理对话,与AMQP模型实现交互。
A network wire-level protocol, AMQP, that lets client applications talk to a broker and interact with the AMQP Model it implements.
这个过程的复杂性导致了这样一个结果:通信线路的每一端都使用了一个叫做 端点管理器(end-point manager)的标准设计模式来协调消息传递。
The complexity of this process has resulted in a standard design pattern known as an end-point manager is employed at each end of the line of communication to coordinate the message delivery.
主开关主开关是在母排输入或输出端的线路断路器,所有的电流都要从那通过。
Main breaker a main breaker is a circuit breaker at the input or output of the bus, through which all of the bus power must flow.
基于行波的输电线路双端测距算法只用到到达故障线路两侧母线的第一个故障初始行波波头,其可靠性较高。
Based on the traveling wave, double ended approach only deals with the first transient traveling wave reaching the two buses of the fault line.
针对高压、超高压远距离输电线路,提出了一种应用双端信息自同步校正的故障测距法。
In accordance with the high and extra high voltage long distance transmission line, this paper presents a fault location method based on two terminal information of self synchronous rectification.
分析表明,线路末端三相故障时,线路首端的测量阻抗不与故障距离成正比。
The analysis shows that the measured impedance at the head of the line is not proportional to the fault distance when a three-phase fault occurs at the end of the line.
提出了一种新的故障定位的精确算法。它是利用输电线路双端电气量进行故障测距的。
This paper proposes a new fault location algorithm based on the data acquired from both end of the faulted line.
然后在线路首端注入电流,通过探测器检验几个分支上是否有电流流过,检测到电流的即为故障点所在的分支。
After injecting current into the head of line, the detector can check whether these branches flow current, the fault branch is that the current has flowed.
可以使用NEXT干扰和环路之一的下行信道传递函数来计算FEXT干扰,该NEXT干扰在环路的上游端的两条线路之间测量。
FEXT interference can be calculated using the NEXT interference measured between the two lines at the upstream ends of the loops and the downstream channel transfer function of one of the loops.
他为服务端程序设定一个TCP线路并且传送上述自制软件来启动。
It sets a TCP connection with the server app and this sends the app to boot.
利用输电线路两端的故障电压、电流量,提出了一种基于输电线路等效序网的故障测距方法。
Using post fault voltages and currents from the two terminals, a novel method for fault location based on transmission line's equivalent sequence networks is proposed in this paper.
算法采用分布参数线路模型,利用了双端数据和六序分量法,并考虑了对不准确线路参数识别的问题。
The algorithm adopts the line' s model of distributing parameter, uses two-end data and six-order component and considers the problem to identifying inaccurate parameter.
故障发生后,对于不同的故障性质,线路首端重合闸安装处的电压谐波含量是不同的。
After faults occur, different kinds of faults have different percentages of voltage harmonic signals which can be measured on busbar.
包括线路断路器不装合闸电阻,只靠两端避雷器保护时过电压的特点,避雷器的工况及绝缘配合等。
The switching surge phenomena caused by line energization with out closing resistors but with MOA at both ends of the line, MOA's working conditions and insulation coordination are included.
探索综合利用故障初始电流、电压行波线模分量实现配电线路双端故障测距的新方法。
A new method of fault location for distribution feeders based on the aerial mode component of fault generating current and voltage traveling waves is discussed.
同时发现各线路间传输延迟有半个周期的不一致,因此在接收端应把采样时钟上升沿调整在所有解出数据都稳定的时刻。
So the synchronous parellel data can be gotten if the rising of sample clock is set at the middle of the stable time of all deserialized data.
理论分析及EMTP仿真表明,这种测距原理不受来自故障线路对端不连续点反射波的影响。
The theory analysis and EMTP simulation show that the presented method is independent on the reflected waves coming from the remote discontinuity on the faulty transmission Line.
提出了一种新颖的超高压输电线路故障双端测距精确算法。
This paper presents a novel accurate fault location algorithm for UHV transmission line.
高压输电线路发生故障后的暂态电压或电流分量中包含比工频分量更多的故障信息,充分利用这一信息是构成具有绝对选择性单端无通信保护的前提。
Moreover, it is the basis of constructing a new non communication protection through absolutely utilizing the fault information which is comprised in transient component of fault current or voltage.
正如你可以看到下面,有一种是在线路的两端模糊的斑点。
As you can see below, there is blurry spot on both ends of the line.
第三条线路连接到PLC输入卡或控制系统上的输出端。
The third wire is the output which is connected to the PLC input card or the control system.
它可以被安装在几个位置上,但这些位置仅限于线路的高压侧,且在压缩机输出端和热力膨胀阀之间。
It can be placed in a selection of locations but it will always be found somewhere in the high pressure part of the circuit in between the compressor output and the thermal expansion valve.
一种线路连接方法,将几个线路的输出端连接在同一点上,只有当所有线路的输出都为“1"时, 点“与" 线路的输出才为“1"。
A circuit connection by which the outputs of several circuits are connected at one point so that the output of a dotted AND circuit will become1 only when the outputs of all circuits are1.
由于不同的光网络单元onu与光线路终端olt的距离不同,实际工作时到达接收端的信号的幅度,相位都相差很大。
Because the distances from different ONUs to OLT are different, the amplitudes and phases of the different signals will have significant difference when receiving the receive terminal.
保证可靠提交的常用方法是向发送端提供一些反馈信息,使它知道在线路的另一端发生了什么情况。
The usual way to ensure reliable delivery is to provide the (71) with some feedback about what is happening at the other end of the line.
保证可靠提交的常用方法是向发送端提供一些反馈信息,使它知道在线路的另一端发生了什么情况。
The usual way to ensure reliable delivery is to provide the (71) with some feedback about what is happening at the other end of the line.
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