提出了一种通过计算机usb接口实现现场总线CAN与计算机(服务器)之间通信的方案。
In this paper, a kind of plan is proposed which use USB interface to realize computer (server) connect to Field bus CAN.
装置配有RS- 232, RS - 485,CAN现场总线及以太网通信接口,可适用于电力系统的多种接线方式。
With the communication interfaces of RS-232, RS-485, CAN field bus and Ethernet, it is available for different connection modes of power system.
SPC 3是一种用于PROFIBUS - DP开放式工业现场总线智能化接口芯片。
SPC3 is a intelligence interface chip which is used in the open field bus PROFIBUS-DP.
控制器具有RS- 485,MODBUS标准现场总线通讯接口,方便接入只能开关柜系统。
Controller has RS-485, MODBUS standard field bus-bar communication interface and facilitate connect to switch board system.
它采用分布式的结构,包括一个接口计算机和数个I/O接口机箱,形成一个现场总线网络。
It adopts distribution pattern, which composes of one interface computer and several I/O interface crates, organizing a Field Bus network.
总线控制器作为管理计算机与现场总线的接口装置,起到了管理计算机与智能仪表数据双向传输的网桥作用。
As a network bridge, communication controller is the interface device which realize the function of communication between supervise PC and field bus.
我们的产品作为现场总线应用和电源的接口,在工业控制单元内部得到广泛应用。
Our products are utilized inside industrial control units, as interfaces for field bus applications and for power supplies.
系统硬件采用了嵌入式PC、通讯接口卡和现场总线数据采集模块。
The hardware is constructed with embedded PC, communication card and field bus data acquisition module.
采用现场可编程门列阵设计arinc 429,MIL-STD - 1553B航空总线接口通信系统,实现总线设备之间的互联。
The ARINC429, MIL-STD-1553B and CAN avionics bus interface communication system based on Field Programmable Gate Array (FPGA) are designed, which links different bus instruments.
而在DCS向FCS过渡的过程中,急需解决传统仪表与现场总线的接口问题。
During the transition from DCS to FCS, the problem of the interface of conventional instrument and FCS appears.
智能型控制器带有可通信接口,通过现场总线由计算机控制,实现供电系统的遥测、遥调、遥控和遥信功能。
The intelligent controller has the communication capable interface and is controlled by computer via fieldbus, therefore it is able to have function of remote me…
本文给出了一种基金会现场总线中的用户层高级接口的实现。
In this paper, an implement of advanced user-interface of Foundation Fieldbus is proposed.
针对导弹武器系统模拟测试方案存在的不足,提出了基于现场总线的数字化测试方案,文中从硬件和软件方面给出了惯性测量组合测试节点与 CAN 总线的接口设计。
We put forword one Check-up and control system based on CAN-bus, and introduced its whole structure, hardware collocation, software Collocation, interface-circuit and so on.
针对导弹武器系统模拟测试方案存在的不足,提出了基于现场总线的数字化测试方案,文中从硬件和软件方面给出了惯性测量组合测试节点与 CAN 总线的接口设计。
We put forword one Check-up and control system based on CAN-bus, and introduced its whole structure, hardware collocation, software Collocation, interface-circuit and so on.
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