Based on MIL-STD-1553B bus, the solving schemes to the key technology problems in avionics communication system are analyzed in this paper.
基于MIL-std—15 5 3b总线,本文分析了航空电子通信系统设计中若干关键性问题的解决途径。
The high speed fiber communication is one of the key techniques that avionics system is studying.
高速光纤通信技术是航空电子系统研究的关键技术之一。
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.
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。
As an interface the avionics full-duplex switched Ethernet (AFDX) end-system provide to application program, AFDX communication ports play an important role in AFDX network information transmission.
航空电子全双工交换以太网(AFDX)通信端口作为AFDX端系统提供给应用程序的接口,对于AFDX网络消息的传递有着重要的作用。
The three kinds of tests will perform an overall test on the MIN-STD-1553 terminal to verify if they meet the requirements of MIL-STD-1553 standard and avionics system communication protocols.
这三种类型的测试将全面验证MIL-STD - 1553通信终端的设计是否满足MIL - STD - 1553标准通信协议及航空电子系统通信协议的要求。
The three kinds of tests will perform an overall test on the MIN-STD-1553 terminal to verify if they meet the requirements of MIL-STD-1553 standard and avionics system communication protocols.
这三种类型的测试将全面验证MIL-STD - 1553通信终端的设计是否满足MIL - STD - 1553标准通信协议及航空电子系统通信协议的要求。
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