通过采用以太网星形结构的网络连接方式,将分散控制系统由总线形网络拓朴结构改为星形网络拓扑结构。
Through using network connecting mode of ether star structure, the distribubuted control system has been changed from busbar network topologic structure into a star network topologic structure.
通信网络可以按照其物理排列或拓扑结构来分类。有三种常见的拓扑结构:星型、总线型和环型。
Communication networks can be classified in terms of their physical arrangement or topologies. Three common topologies are the star, bus, and ring.
这就与总线拓扑不同,因为它一根电缆的失效将影响整个网络。
This differs from the bus topology where having one cable fail disrupts the entire network.
为了解决燃料电池电动客车各部件之间的通讯,基于CAN总线设计了整车通讯网络的拓扑结构,提出了其硬件要求。
To realize the communication between the components of FCEB, the topology structure and hardware requirement of onboard communication network based on CAN bus are presented.
在该系统中应用CAN总线实现了下住机和CAN点火器的网络拓扑设计,实现网络上各个节点的监控和信号的传输。
In this system, the application of the CAN bus accomplish the hypogyny-computer and CAN ignition of network topology, realization of each node monitoring and signal transmission.
现场总线是应用在控制最底层的一种总线型拓扑网络。
Fieldbus is a bus topology network used in the bottom layer of controlling system.
介绍了列车通信网络的两条总线,即绞线式列车总线(WTB)和多功能车辆总线(MVB),并分析了两层网络拓扑结构。
This paper introduces two buses of train communication network:the wire train bus(WTB) and the multifunction vehicle bus(MVB), analyzes two layers topo.
分析了CAN总线标准的网络拓扑结构、报文帧格式,并对标准帧和扩展帧进行了比较。
This paper analyzed topology and message frame types of CAN bus and compared the standard frame format and extended frame format.
阐述了一种基于MVB总线的机车网络设计的简要原理,简单介绍了这套网络设计的拓扑结构,重点介绍了其中央控制单元的软件设计。
This paper briefly describes the principle of the design of locomotive network based on MVB bus. It also describes the topology of the design and the software design of the central control unit.
本文首先简要介绍了CAN总线的技术特点,同时把针对电动汽车的特点,建立车身网络的拓扑结构。
This paper first introduce the technical features of CAN bus. In cognizance of specialty of electric vehicle, the topology structure of the car networking is built.
在同一个网络中用于分配计算机的通用的拓扑结构有点对点,总线结构,星型结构和环形结构。
Common topologies used to arrange computers in a network are point-to point, bus, star, and ring.
针对双总线形、星形、环形和双环形四种光纤网络拓扑,比较它们的光纤需求长度、平均传播延迟、传输衰减、最大比特率及容错。
The comparison is in term of fiber required, average propagation delay, transmission loss, max bit rate, fault tolerance among four type topologies included bus, star, ring and dual ring.
总线型的网络拓扑结构、令牌传递总线方式的运用,确保了系统数据采集网络通信顺畅。
The bus network topology structure and token accessing control are used to solve the capability problem of the network communication in data collection.
总线型的网络拓扑结构、令牌传递总线方式的运用,确保了系统数据采集网络通信顺畅。
The bus network topology structure and token accessing control are used to solve the capability problem of the network communication in data collection.
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