标准解读

《GB/T 45511-2025 工业现场通信质量检测 通用技术规范》是一项国家标准,旨在为工业环境下的通信系统提供一套全面的质量评估方法。该标准适用于各种类型的工业网络通信,包括但不限于以太网、无线局域网以及专有协议网络等。其主要目标是确保这些通信系统的性能符合预期要求,从而支持工业自动化和信息化的高效运行。

在内容上,《GB/T 45551-2025》详细规定了测试环境搭建的基本原则与要求,明确了如何设置测试条件来模拟实际应用场景。此外,还列举了一系列关键指标及其测量方法,如延迟时间、数据传输速率、丢包率等,这些都是评价通信质量好坏的重要参数。对于每项指标,标准不仅给出了具体的定义,还提供了推荐的测试流程及所使用的工具或设备类型建议。

为了保证测试结果的一致性和可比性,文档中特别强调了标准化的操作步骤,并对测试报告的内容提出了具体格式要求。通过遵循这一系列指导方针,相关方能够更准确地衡量不同条件下通信系统的性能表现,进而采取适当措施优化现有设施或选择更适合的技术方案。


如需获取更多详尽信息,请直接参考下方经官方授权发布的权威标准文档。

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文档简介

ICS25.040

CCSN10

中华人民共和国国家标准

GB/T45511—2025

工业现场通信质量检测通用技术规范

Industrialfieldcommunicationqualityinspection—Generaltechnical

specifications

2025⁃03⁃28发布2025⁃10⁃01实施

国家市场监督管理总局

国家标准化管理委员会发布

GB/T45511—2025

目次

前言··························································································································Ⅲ

1范围·······················································································································1

2规范性引用文件········································································································1

3术语和定义··············································································································1

4缩略语····················································································································2

5通信质量指标···········································································································2

5.1概述·················································································································2

5.2物理层通信质量指标····························································································2

5.3数据链路层通信质量指标······················································································3

5.4应用层通信质量指标····························································································4

6检测通用要求···········································································································4

6.1检测及诊断流程··································································································4

6.2检测方法通用要求·······························································································5

7通信故障类型···········································································································5

7.1概述·················································································································5

7.2物理层故障类型··································································································6

7.3数据链路层故障类型····························································································6

7.4应用层故障类型··································································································8

8通信质量影响因素·····································································································8

8.1概述·················································································································8

8.2设备故障因素·····································································································8

8.3物理介质因素·····································································································8

8.4安装操作因素·····································································································8

8.5电磁干扰因素·····································································································9

8.6总线供电因素·····································································································9

8.7组态配置因素·····································································································9

8.8互操作不兼容因素······························································································10

附录A(资料性)PROFIBUS现场总线通信质量检测范围与检测指标实例······························11

A.1PROFIBUSPA物理层检测·················································································11

A.2PROFIBUS数据链路层检测················································································13

A.3PROFIBUS应用层检测······················································································14

参考文献····················································································································15

GB/T45511—2025

前言

本文件按照GB/T1.1—2020《标准化工作导则第1部分:标准化文件的结构和起草规则》的规

定起草。

请注意本文件的某些内容可能涉及专利。本文件的发布机构不承担识别专利的责任。

本文件由中国机械工业联合会提出。

本文件由全国工业过程测量控制和自动化标准化技术委员会(SAC/TC124)归口。

本标准起草单位:机械工业仪器仪表综合技术经济研究所、上海电力大学、北京鼎实创新科技股份

有限公司、盈速工业通讯技术(北京)有限公司、恒迈思网络技术(北京)有限公司、重庆工业智能技术研

究院、北京小米移动软件有限公司、大连胜光科技发展有限公司、大连康丰科技有限公司、沈阳菲尔德

物联科技有限公司、沈阳工业大学、中国科学院沈阳自动化研究所、上海自动化仪表有限公司、中电科

思仪科技股份有限公司、山东大学、重庆邮电大学、四川安控科技股份有限公司、浙江百盛光电股份有

限公司。

本标准主要起草人:包伟华、王振、刘丹、李文娟、谢素芬、李梦宁、王鹏、史伟伟、王基亮、高晓浓、

吴松泽、王佳、李斌、李海鸥、魏剑嵬、张晓玲、杨江涛、张承瑞、王剑、刘明哲、罗小易、陆妹、赵勇、刘斌、

魏旻、韩丹涛、郑秋平、胡永康、向朝伟、曹瑞召、陈时兴、王彪、李春雨。

GB/T45511—2025

工业现场通信质量检测通用技术规范

1范围

本文件规定了工业通信网络在工业现场运行时进行通信质量检测的关键指标,描述了检测方法和

检测流程,给出了工业现场通信故障类型和通信质量影响因素。

本文件适用于除工业无线网外工业通信网络的工业现场通信质量的检测、故障诊断和故障排除。

2规范性引用文件

本文件没有规范性引用文件。

3术语和定义

下列术语和定义适用于本文件。

3.1

工业通信设备industrialcommunicationdevice

按特定工业通信协议开发的具有工业通信能力的控制设备、现场设备和网络设备等。

注:控制设备包括可编程逻辑控制器(PLC)、分布式控制系统(DCS)、工业计算机(IPC)等可编程控制设备和数据

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