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.
利用单片现场可编程门阵列(FPGA)可构成一个SOPC,实现了低成本、多速率、多接口的误码测试系统。
An error ratio testing system featured with low cost, multi-speed grades, multi-interface and a SOPC based on a single field programmable gate array (FPGA) chip were presented.
介绍了利用现场可编程门阵列fpga实现低电压差分信号—光纤接口的协议透明、远距离、高速数据传输系统。
Based on field programmable gates array (FPGA), a method of implementing a long-range agreement transparent, highspeed LVDS and optical communication was firstly introduced.
系统的扩展和移植难度发现的PCI(外设组件接口)总线运动控制器或PC(可编程控制器)的手段。
Difficulty of system Extending and transplant are found by means of PCI (Peripheral Component Interface) bus motion controller or PC (Programmable controller).
本文阐述了可编程控制器控制系统中,通过ASCII模块,实现远程操作站与可编程控制器的连接,并开发了ASCII模块中的接口通讯程序。
This paper expounded that the long distance operating station connect to PLC control system with ASCII module, and edited the communication program stored in ASCII module.
本文阐述了可编程控制器控制系统中,通过ASCII模块,实现远程操作站与可编程控制器的连接,并开发了ASCII模块中的接口通讯程序。
This paper expounded that the long distance operating station connect to PLC control system with ASCII module, and edited the communication program stored in ASCII module.
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