文件名称:tcpip
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基于TCP/IP通讯的仪器仪表应用层协议架构由于新一代仪器仪表的数据量大,传输距离远,实时性高,传统的基于RS232/RS485的串行数据传送方式已不能满足要求,而基于TCP/IP的以太网数据通讯方式,传输距离大(通过internet,理论上无限远),速度快,是当前新一代仪器仪表数据传输的理想方式。
基于单片机(如MCS51+RTL8019AS)的以太网接入技术已经相当成熟,可以方便的与PC机连接。根据仪器仪表嵌入式应用的要求(如实时性),我们采用TCP协议或UDP协议进行数据传输。TCP是一种可靠的传输协议,但效率相对较低,UDP是一种由用户自己来保证传输可靠性的传输协议,但效率较高。
本协议目前采用TCP,以太网接口模块作为服务器方,任何时候仅提供一个连接。
本文档的适用范围为带有以太网接口模块的仪器仪表。
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Instruments based application layer protocol architecture TCP/IP communication since the new generation of instrumentation data capacity, transmission distance, high real-time, based on the traditional serial data transfer mode RS232/RS485 can not meet the requirements, and based on TCP/IP Ethernet data communication mode, the transmission distance is large (via internet, theoretically infinite) speed, is the ideal way to present a new generation of instrumentation data transmission.
Microcontroller-based (such as MCS51+ RTL8019AS) Ethernet access technology is already quite mature, it can be easily connected to a PC. According instrumentation embedded applications (such as real-time), we use the TCP protocol or UDP protocol for data transmission. TCP is a reliable transport protocol, but the efficiency is relatively low, UDP is a transmission by the users themselves to ensure the reliability of the transmission protocol, but more efficient.
The protocol currently used TCP, Etherne
基于单片机(如MCS51+RTL8019AS)的以太网接入技术已经相当成熟,可以方便的与PC机连接。根据仪器仪表嵌入式应用的要求(如实时性),我们采用TCP协议或UDP协议进行数据传输。TCP是一种可靠的传输协议,但效率相对较低,UDP是一种由用户自己来保证传输可靠性的传输协议,但效率较高。
本协议目前采用TCP,以太网接口模块作为服务器方,任何时候仅提供一个连接。
本文档的适用范围为带有以太网接口模块的仪器仪表。
-
Instruments based application layer protocol architecture TCP/IP communication since the new generation of instrumentation data capacity, transmission distance, high real-time, based on the traditional serial data transfer mode RS232/RS485 can not meet the requirements, and based on TCP/IP Ethernet data communication mode, the transmission distance is large (via internet, theoretically infinite) speed, is the ideal way to present a new generation of instrumentation data transmission.
Microcontroller-based (such as MCS51+ RTL8019AS) Ethernet access technology is already quite mature, it can be easily connected to a PC. According instrumentation embedded applications (such as real-time), we use the TCP protocol or UDP protocol for data transmission. TCP is a reliable transport protocol, but the efficiency is relatively low, UDP is a transmission by the users themselves to ensure the reliability of the transmission protocol, but more efficient.
The protocol currently used TCP, Etherne
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基于TCPIP通讯的仪器仪表应用层协议架构.doc