每个交换机支持2 -30控制器。大厅内挤满了庞大的设备及各种机柜。
Each switchboard supports 2-30 controllers. It occupies a huge hall full of equipment and various boxes.
中心控制室,控制交换机和控制器等设备的工作。
This center controls the work of controllers and switchboards etc.
通常使用SAN交换机来连接服务器和存储控制器。
SAN switches are typically used to connect the servers to the storage controller.
每个交换机支持2 - 30控制器。
服务器上有两个主机总线适配器 (HBAs)、RAID阵列上有两个SAN交换机和两个 RAID控制器。
There are two host bus adapters (HBAs) on the server, two SAN switches, and two RAID controllers on the RAID array.
智能采集器与控制器通过现场总线通信,交换信息、发送指令、采集数据和控制。
Intelligent data acquisition collector communicates with controller via field-bus, exchanges information, sends command, gather data and control.
传感器、控制器与执行器的数据经网络进行传输与交换的闭环控制系统称为网络控制系统。
Networked control systems (NCS) are a kind of closed-loop control systems where the sensors, the controller and the actuators exchange data through network.
通过该方法的介绍,使得那些没有SPI接口功能的处理器和控制器能够扩展SPI接口,以便同外部设备进行数据交换。
This interface can be used to data exchange with peripheral apparatus for processor and controller which have not SPI interface function.
发送器,致动器和可编程序控制器间信息交换用文件传送协议总线。数据链层。
Fip bus for exchange of information between transmitters, actuators and programmable controllers. Data link layer.
“假”意味着之前提到的流不会被安装。在每个交换机上会安装一个ARP的流,把所有的ARP包发送到控制器。
"False" means the previously mentioned flood flows will not be installed. Instead an ARP flow will be installed on each switch that sends all ARP packets to the controller.
控制器的逻辑单元为多cpu网络体系,体系内各智能化功能模块通过CAN总线互联,实现模块间的数据交换和多cpu协同工作。
The logic elements in controller are multiple CPU network setup. Individual intelligent functional modules are interconnected by CAN bus for data exchanging and multiple CPU cooperating.
容压法电力交换控制已经应用于终端控制器的直流电压控制部分和有功功率控制部分。
The voltage margin method for interchange power control was applied to the dc voltage control block (DC-AVR) and the active power control block (APR) in the terminal controller.
本文介绍了M 84可编程序控制器的性能特点以及在玻璃窑炉火焰交换系统中的应用情况。
In this paper the performances of M84 programmable controller and its application in flame reversing system in glass tank furnaces are described.
MAI管理设备控制器内的所有状态寄存器,并且通过8位并行数据线与设备端mcu进行数据交换。
MAI, which manages all the control status registers, exchange data with MCU through 8-bit data bus.
该系统采用CAN现场总线增强各探测点与底层控制器之间的信息交换能力。
To enhance the capability of exchanging information among each detecting point and the bottom controller, the CAN field bus is adopted.
数据节点通过各自CAN控制器与总线相联,实现网络数据交换。
Data nodes are connected to the bus through their own CAN controllers to realize network data-changing.
本课题的任务是为采用CDMA技术的数字移动通信系统设计一个应用于基站控制器(BSC)内部的高速数据交换网络。
The task of this research is to design a high speed data switch network which is used in a base station controller (BSC) of a digital mobile communication system based on CDMA technique.
从工程角度介绍可编程控制器(PLC)用于脱盐水处理中阳离子交换器的控制方案,并给出了有关硬件及软件的设计要点。
PLC control scheme of cation exchanger, which has application in the desalted water process, is presented in this paper. The design of software and hardware is also described.
现场总线是,提供一个有效的数字串行数据交换中的一个或多个控制器和现场设备的数量数字网络。
Field buses are digital networks that provide an efficient digital serial data exchange among one or more controllers and a number of field devices.
有一个控制室与交换机和控制器。
本文提出了一种基于多业务并行atm交换机的智能输入端口控制器。
A new intelligent input port controller of multi traffic parallel ATM switch is presented in this paper.
因此本文研究的软交换体系下媒体网关过载控制是一种由媒体网关和媒体网关控制器共同作用构成的反馈型业务流量控制机制。
So the overload control of MGW in Soft-Switch researched in this paper is a kind of feedback model for service traffic control mechanism which is composed by MGW and MGC together.
采用可编程控制器(PLC)控制钠离子交换装置,可实现无人化管理的连续软化水生产。
With PLC controlled sodium ion exchange device, the unmanned continuous production of softened water can be realized.
在使用时,需要通过接口控制器与控制芯片进行数据交换。
When it works, it need to communication with control IC by interface controler.
由于采用了基于事件的报文交换方式,使得 楼宇控制器之间以较小流量占用而获得信息的快速交换,保证了控制的实时 性。
Thanks to the event based packet exchange, the information exchange is quick with small flow rate occupation between the BA controllers, which guarantees the real time capability of the control.
本文首先针对第三代移动通信系统TD - SCDMA的无线网络控制器RNC系统中网络内部的交换技术进行了深入的研究。
This thesis researches deeply the switch technology and its application in the base station controller RNC system network of TD-SCDMA.
使用“热交换”控制器是一种有效途径,也是完成上述工作所广为采用的一种方法。
The use of 'Hot-Swap' controllers is an effective way and widely used method to achieve this task.
使用“热交换”控制器是一种有效途径,也是完成上述工作所广为采用的一种方法。
The use of 'Hot-Swap' controllers is an effective way and widely used method to achieve this task.
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