GBZ17215.682-2024 English PDF

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GBZ17215.682-2024: Electricity metering data exchange - The DLMS/COSEM suite - Part 82: Mesh communication profile for neighbourhood networks
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Basic data

Standard ID: GB/Z 17215.682-2024 (GB/Z17215.682-2024)
Description (Translated English): Electricity metering data exchange - The DLMS/COSEM suite - Part 82: Mesh communication profile for neighbourhood networks
Sector / Industry: National Standard
Classification of Chinese Standard: N22
Classification of International Standard: 17.220.20
Word Count Estimation: 25,278
Date of Issue: 2024-10-26
Date of Implementation: 2025-05-01
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/Z 17215.682-2024: Electricity metering data exchange - The DLMS/COSEM suite - Part 82: Mesh communication profile for neighbourhood networks

---This is an excerpt. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.), auto-downloaded/delivered in 9 seconds, can be purchased online: https://www.ChineseStandard.net/PDF.aspx/GBZ17215.682-2024
GB /Z 17215.682-2024.Electrical measurement data exchange DLMS/COSEM components Part 82.Community network Mesh communication configuration ICS 17.220.20 CCSN22 Guiding Technical Documents of National Standardization of the People's Republic of China DLMS/COSEM components for electrical measurement data exchange Part 82.Community Network Mesh Communication Configuration Released on October 26, 2024 Implementation on May 1, 2025 State Administration for Market Regulation The National Standardization Administration issued

Table of Contents

Preface III Introduction V 1 Scope 1 2 Normative references 1 3 Terms, Definitions and Abbreviations 3 3.1 Terms and Definitions 3 3.2 Abbreviations 3 4 Target Communication Environment - Overview 4 5 Usage of this configuration communication layer 6 5.1 Information relevant to the use of lower-level specifications 6 5.2 Configuration structure supporting mesh network communication 6 5.3 Lower layer protocols and their use 6 5.4 Service Mapping and Adaptation Layer 7 5.5 Registration and Connection Management 7 6 Identification and Addressing Schemes 10 6.1 Overview 10 6.2 Network Addressing 11 6.3 Transmission Addressing 11 6.4 Encapsulation Layer Addressing 12 7 Application Layer Service Considerations 12 7.1 Overview 12 7.2 Establishing and releasing application connections. ACSE service 12 7.3 xDLMS Service 13 7.4 Security Mechanism 14 7.5 Long Application Message Transmission 14 7.6 Medium access, bandwidth, and timing considerations 14 7.7 Other considerations 14 8 Communication Configuration and Management 14 8.1 Overview 14 8.2 Group Management 14 8.3 Delayed and Random Responses 15 9 COSEM Application Process 15 10 Other considerations for using this configuration 15 Appendix A (Informative) Address Management Process Example 16 Figure 1 Mesh community network in an AMI environment 4 Figure 2 Entities and interfaces of intelligent measurement system 5 Figure 3 DLMS/COSEM mesh network communication configuration 6 Figure 4 Identification and addressing scheme 11 Figure A.1 Registration Management Process 16 Table 1 Send_destination_and_method attributes 9 Table 2 Address registration data 9 Table 3 Address update data 9 Table 4 Client and Server Service Access Points (SAP) 12 Preface This document is in accordance with the provisions of GB/T 1.1-2020 "Guidelines for standardization work Part 1.Structure and drafting rules for standardization documents" Drafting. This document is part 82 of GB/T (Z) 17215.6 "DLMS/COSEM component for electrical measurement data exchange". The following parts have been published. --- Part 10.Standardized framework for intelligent measurement; --- Part 11.Template for DLMS/COSEM communication configuration standard; --- Part 31.Use of local area networks based on twisted pair carrier signals; --- Part 46.Data link layer using HDLC protocol; --- Part 47.DLMS/COSEM transport layer based on IP networks; --- Part 51.Application layer protocol; --- Part 52.Communication protocol management distribution line message specification (DLMS) server; --- Part 53.DLMS/COSEM application layer; --- Part 61.Object Identification System (OBIS); --- Part 62.COSEM interface class; --- Part 69.Common Information Model Message Set (IEC 61968-9) and DLMS/COSEM (IEC 62056) data model and coordination Mapping between proposals; --- Part 73.Wired and wireless M-Bus communication configurations for local and community networks; --- Part 75.Local data transmission configuration for local network (LN); --- Part 76.Connection-oriented layer 3 communication configuration based on HDLC; --- Part 82.Community Network Mesh Communication Configuration; --- Part 86.Community network high-speed PLC ISO /IEC 12139-1 configuration; --- Part 91.Communication using Web services to access DLMS/COSEM servers via COSEM Access Service (CAS) Configuration; --- Part 97.Communication configuration based on TCP-UDP/IP network. This document is equivalent to IEC TS62056-8-20.2016 "Electrical measurement data exchange DLMS/COSEM components Part 8-20 The file type is adjusted from IEC technical specifications to my country's national standardization guidance technology. document. The following minimal editorial changes have been made to this document. --- To coordinate with the existing standard, the name of the standard is changed to "Electrical Measurement Data Exchange DLMS/COSEM Components Part 82. Community Network Mesh Communication Configuration"; --- The original text does not have the introduction to informative Appendix A. The introduction to Appendix A is added in 5.5.3.1. Please note that some of the contents of this document may involve patents. The issuing organization of this document does not assume the responsibility for identifying patents. This document was proposed by the China Machinery Industry Federation. This document is under the jurisdiction of the National Technical Committee for Standardization of Electrical Instruments (SAC/TC104). This document was drafted by. Harbin Electric Instrument Research Institute Co., Ltd., Qingdao Neusoft Carrier Technology Co., Ltd., Shenzhen Youxunda Technology Co., Ltd., Wasion Information Technology Co., Ltd., Qingdao Dingxin Communications Co., Ltd., Yunnan Power Grid Co., Ltd., Guangxi Power Grid Co., Ltd., China Southern Power Grid Electric Power Technology Co., Ltd., Huali Technology Co., Ltd., Shenzhen Kelu Electronics Technology Co., Ltd. Technology Co., Ltd., Ningbo Samsung Medical Electric Co., Ltd., Yantai Dongfang Weston Electric Co., Ltd., Jiangsu Linyang Energy Co., Ltd. Co., Ltd., Shenzhen Star Instrument Co., Ltd., Wuhan Shengfan Electronics Co., Ltd., Jiangyin Zhonghe Electric Power Instrument Co., Ltd., Ningbo Jia Nan Intelligent Electric Co., Ltd., Jiangsu Huapeng Intelligent Instrument Technology Co., Ltd., China Electric Equipment Shandong Electronics Co., Ltd., Changsha Heng Dianjuneng Electronic Technology Co., Ltd., Hangzhou Huagang Intelligent Technology Co., Ltd., Ante Instrument Group Co., Ltd., Hangzhou Juhua Technology Co., Ltd. Co., Ltd., Shenzhen Xianxing Electric Technology Co., Ltd., Qingdao Qiancheng Technology Co., Ltd., Shenzhen Renergy Technology Co., Ltd., State Grid Anhui Electric Power Co., Ltd. Chuzhou Power Supply Company, State Grid Jilin Electric Power Co., Ltd. Jilin Power Supply Company, Zhongnan Instrument Co., Ltd., Zhejiang Chentai Technology Co., Ltd. and Zhejiang Songxia Instrument Co., Ltd. The main drafters of this document are. Dong Haitao, Guan Wenju, Guo Xiaoguang, Li Jun, Diao Ruipeng, Shen Xin, Yang Zhou, Li Xiangfeng, Zeng Shitu, Chen Weigang, Chen Jie, He Yan, Bao Zhimin, Liu Chunhua, Tang Shujin, Zhang Yu, Jiang Weiping, Dai Cheng, Liu Mengchen, Yang Wu, Bao Xiangrong, Wang Jun, Ye Siqi, Fei Guihuai, Zhang Haifeng, Miao Shuli, Zhou Ya, Fu Rao, Zhang Yong, Zhao Wei, and Xue Te.

introduction

At present, energy conservation, emission reduction, low carbon, environmental protection and the establishment of a sustainable society have become a global consensus. management system to promote efficient and scientific use of energy. On this basis, IEC /TC57 (power system management and related information exchange), TC13 (Electric Energy Measurement and Control) and EN/TC294 (Instrument Communication Systems) jointly established the DLMS/COSEM Energy Measurement System Transmission System. The electrical energy part is completed by IEC 62056 (all parts), and the non-electrical energy part is completed by EN13757 (all parts). In order to establish a global unified and open interoperability, countries around the world have successively converted IEC 62056 into their own national standards. XY is converted to GB/T 17215.6XY. GB/T 17215 "Alternating Current Measuring Equipment" is divided into several parts, GB/T 17215.6 "Electrical Measurement Data Exchange DLMS/COSEM Group The document is planned to consist of 27 parts. --- Part 10.Intelligent measurement standardization framework. The purpose is to understand the relevant aspects of this series of standards architecture, interoperability, information security, etc. information. --- Part 11.Template for DLMS/COSEM communication configuration standard. The purpose is to establish the communication configuration standard to follow template. --- Part 31.Use of local area networks based on twisted pair carrier signals. The purpose is to use local area networks using twisted pair carrier signals to comply with specifications. --- Part 41.Data exchange using wide area networks. Public switched telephone network (PSTN) with LINK protocol. Specifications followed by the Public Switched Telephone Network with the LINK protocol. --- Part 42.Physical layer service process for connection-oriented asynchronous data exchange. The purpose is to establish the physical layer service process for asynchronous data exchange. The layer connection process should follow the specifications. --- Part 46.Data link layer using HDLC protocol. The purpose is to use the HDLC asynchronous communication protocol suite to follow the data Link layer specifications. --- Part 47.DLMS/COSEM transport layer based on IP network. The specifications followed by the transport layer. --- Part 51.Application layer protocol. The purpose is to provide the transport layer and metering equipment communication architecture described in DL/T 790.441 Application layer. --- Part 52.Communication protocol management distribution line message specification (DLMS) server. The purpose is to provide IEC 62056-31, The protocol management DLMS server of IEC 62056-41 and IEC 62056-51 is consistent with and different from DL/T 790.441. --- Part 53.DLMS/COSEM application layer. The purpose is to give the application of DLMS/COSEM client and server Layer structure, services and protocols. --- Part 58.Smart Message Language (SML). The purpose is to give an XML-based grammar for constructing SML for use in TCP/IP Internet language. --- Part 61.Object Identification System (OBIS). The purpose is to specify unique identifiers for data in electrical measuring equipment. --- Part 62.COSEM interface class. The purpose is to specify the instrument model and build the instrument function in the form of interface class. --- Part 69.Common Information Model Message Set (IEC 61968-9) and DLMS/COSEM (IEC 62056) data model and coordination The purpose is to provide the mapping between CIM and DLMS/COSEM required for information exchange with the master ERP. --- Part 73.Wired and wireless M-Bus communication configuration for local and community networks. The purpose is to use wired and wireless M-bus The model follows the specification. --- Part 75.Local data transmission configuration for local network (LN). The purpose is to use the specifications followed by the local network mode. --- Part 76.Connection-oriented layer 3 communication configuration based on HDLC. The DLMS/COSEM three-layer model follows the specifications. --- Part 82.Community Network Mesh Communication Configuration. The purpose is to use the wireless mesh mode to follow the specifications. --- Part 83.Community Network PLCS-FSK Communication Configuration. The purpose is to use the PLCS-FSK mode to follow the specifications. --- Part 84.Narrowband OFDMPRIME PLC communication configuration for community networks. The purpose is to use OFDMPRIME The PLC mode follows the specification. --- Part 85.Community network narrowband OFDMG3-PLC network communication configuration. The purpose is to use OFDMG3-PLC mode Follow the specifications. --- Part 86.Community network high-speed PLC ISO /IEC 12139-1 configuration. The purpose is to use PLC ISO /IEC 12139-1 The specification that the pattern follows. --- Part 88.Communication configuration for ISO /IEC 14908 series networks. The purpose is to use the ISO /IEC 14908 model to follow the specification. --- Part 811.Wi-SUN Community Mesh Network Communication Configuration. The purpose is to use the specifications followed by the Wi-SUN mode. --- Part 812.Low Power Wide Area Network (LPWAN) Communication Configuration. The purpose is to use the specifications followed by the LPWAN mode. --- Part 91.Communication configuration for accessing DLMS/COSEM servers via COSEM Access Service (CAS) using Web services The purpose is to adopt the specifications followed by the Web server model. --- Part 97.Communication configuration based on TCP-UDP/IP network. The purpose is to use the TCP-UDP/IP mode to follow specification. According to the definition in IEC 62056-1-0, IEC 62056 DLMS/COSEM components provide special features for smart metering related communication media. The communication configuration standard is determined. Such communication profile standards specify how to use the COSEM data model and DLMS/COSEM application layer. Communication configuration standards refer to some communication standards in the IEC 62056 DLMS/COSEM components, or other open communication standard. This document can be used on various appropriate technologies that can carry IPv6 traffic and provide community networks with mesh topology. Specified communication configuration. This document follows the rules defined in Appendix A of GB/T 17215.653-2018. The communication configuration specified in this document addresses the specificities caused by the characteristics of mesh networks and the large number of devices to be managed. DLMS/COSEM components for electrical measurement data exchange Part 82.Community Network Mesh Communication Configuration 1 Scope This document provides a DLMS/COSEM communication configuration that can be used for smart metering systems in mesh community networks (NNs). This document can be regarded as a revision and extension of the UDP/IP communication protocol specified in GB/T 17215.697-2018. Likewise, the PHY (physical layer) and MAC (medium access control) layers are outside the scope of this document. This document specifies several features that are essential for the efficient operation of large-scale AMIs using mesh community networks. These features include. ---Identifies the DLMS/COSEM client and server participating in the application association (AA) with the system title, when the server IP address When the address changes, the identifier remains unchanged, see Chapter 6; ---Mechanism for informing the client of the binding between the server system title and its current IP address, see 5.5.3; ---Use DLMS/COSEM transport layer based on UDP to enable long-term open DLMS/COSEM application association, and Devices can leave and join mesh community networks and/or change their IP addresses, see 7.2.2; --- DLMS/COSEM application layer and application process level security features that can be used in mesh environments, see 7.4.2; ---A mechanism to organize servers into one or more groups based on different conditions so that they can broadcast to all devices connected to the mesh network. broadcast requests, and only servers belonging to the group execute the request and respond, see 8.2; --- A mechanism that allows responses to requests to be sent within a specified time window and with random delays, see 8.3; --- Use specific UDP ports that allow efficient compression of UDP headers, see 6.3.3. The scope of this document's communication configuration specification is limited to communication with the COSEM data model and the DLMS/COSEM application layer. Aspects of the protocol used. Definitions of data structures and data contents for specific items may be provided in the companion specifications for the specific items. 2 Normative references The contents of the following documents constitute the essential clauses of this document through normative references in this document. For referenced documents without a date, only the version corresponding to that date applies to this document; for referenced documents without a date, the latest version (including all amendments) applies to This document. GB/T 17215.653-2018 Electrical measurement data exchange DLMS/COSEM components Part 53.DLMS/COSEM Application layer (IEC 62056-5-3.2017, IDT) GB/T 17215.697-2018 Electrical measurement data exchange DLMS/COSEM components Part 97.Based on TCP-UDP/IP Communication configuration of the network (IEC 62056-9-7.2013, IDT) Note. GB/T 2900 (all parts) Electrical terminology [IEC 60050 (all parts)]. IEC TR62051-1 Terminology for data exchange for electricity metering, tariff and load control Part 1.Terminology for use with Note. GB/T 17215.101-2010 Terminology for data exchange for electricity metering, tariff and load control Part 1.Terminology for data exchange using DLMS/COSEM ......

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