GB/T 17215.662-2018 English PDF

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GB/T 17215.662-2018: Electricity metering data exchange -- The DLMS/COSEM suite -- Part 62: COSEM interface classes
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Standard ID	USD	BUY PDF	Lead-Days	Standard Title (Description)	Status
GB/T 17215.662-2018	7334	Add to Cart	16 days	Electricity metering data exchange -- The DLMS/COSEM suite -- Part 62: COSEM interface classes	Valid

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GB/T 15284   GB/T 17215.321   GB/T 34067.2   GB/Z 17215.682   GB/Z 17215.669   GB/T 17215.661   

Basic data

Standard ID: GB/T 17215.662-2018 (GB/T17215.662-2018)
Description (Translated English): Electricity metering data exchange -- The DLMS/COSEM suite -- Part 62: COSEM interface classes
Sector / Industry: National Standard (Recommended)
Classification of Chinese Standard: N22
Classification of International Standard: 17.220.20
Word Count Estimation: 386,372
Date of Issue: 2018-12-28
Date of Implementation: 2019-07-01
Older Standard (superseded by this standard): GB/T 19882.32-2007
Regulation (derived from): National Standard Announcement No. 17 of 2018
Issuing agency(ies): State Administration for Market Regulation, China National Standardization Administration

GB/T 17215.662-2018: Electricity metering data exchange -- The DLMS/COSEM suite -- Part 62: COSEM interface classes

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Electricity metering data exchange--The DLMS/COSEM suite--Part 62. COSEM interface classes ICS 17.220.20 N22 National Standards of People's Republic of China Replace GB/T 19882.32-2007 Electrical measurement data exchange DLMS/COSEM component Part 62. COSEM Interface Class Part 62. COSEMinterfaceclasses (IEC 62056-6-2.2017, Electricitymeteringdataexchange- TheDLMS/COSEMsuite-Part 6-2. COSEMinterfaceclasses, IDT) Published on.2018-12-28 2019-07-01 implementation State market supervision and administration China National Standardization Administration issued

Content

Foreword III Introduction IV 1 Scope 1 2 Normative references 1 3 Terms and definitions, abbreviations 4 3.1 Terms and definitions related to the image transmission process (see 5.3.6) 4 3.2 Terms and definitions related to the spread spectrum frequency shift keyed power line communication (S-FSKPLC) setting class (see 5.9) 5 3.3 Terms and Definitions Related to PRIMENBOFDMPLC Setting ICs (see 5.11) 6 3.4 Terms and definitions related to zigbee􀆿 (see 5.14) 7 3.5 Terms and definitions related to the paid metering interface class (see 5.5) 9 3.6 Terms and Definitions relating to the Arbitrator IC (see 5.4.12) 12 3.7 Abbreviations 13 4 Basic principles 18 4.1 Overview 18 4.2 Reference Method 19 4.3 base_names (base name) reserved for a specific COSEM object 20 4.4 Class Description Notation 20 4.5 Common Data Types 22 4.6 Data Format 23 4.7 COSEM Server Model 27 4.8 COSEM Logic Device 27 4.9 Information Security 28 5 COSEM interface class 29 5.1 Overview 29 5.2 Parameter and Measurement Data Interface Class 34 5.3 Access Control and Management Interface Class 61 5.4 Time and event binding control interface class 113 5.5 Paid measurement related interface class 140 5.6 Interface Classes for Setting Data Exchange via Local Ports and Modems 168 5.7 Interface Class 184 for Data Exchange via M-Bus 5.8 Setting the Data Exchange Interface Class 195 over the Internet 5.9 Interface class 208 for setting data exchange using S-FSKPLC 5.10 Setting GB/T 15629.2LLC Layer Interface Class 222 5.11 Interface Class Settings for Managing DLMS/COSEM Narrowband OFDMPLC Profiles PRIME Network 225 5.12 Interface Classes for Setting Up and Managing G3-PLC Network Configuration Files for DLMS/COSEM Narrowband OFDMPLCs 237 5.13 Setting up and managing the interface class 250 of the DLMS/COSEM HS-PLCISO /IEC 12139-1 Community Network 5.14 ZigBee􀆿 Setting Class 254 5.15 Interface Class Maintenance 265 6 Relationship with OBIS 265 6.1 Overview 265 6.2 Abstract COSEM Object 266 6.3 COSEM objects related to electrical energy 291 6.4 OBIS Identification Code 297 7 previous version of interface class 297 7.1 Overview 297 7.2 Generic Set Profilegeneric (class_id=7, version=0) 298 7.3 Connecting SN (class_id=12, version=0) 301 7.4 Connecting SN (class_id=12, version=1) 303 7.5 Connecting SN (class_id=12, version=2) 305 7.6 Connecting SN (class_id=12, version=3) 308 7.7 Connecting LN (class_id=15, version=0) 312 7.8 Connecting LN (class_id=15, version=1) 318 7.9 Connecting LN (class_id=15, version=2) 323 7.10 Security Settings (class_id=64, Version=0) 329 7.11 IEC Local Port Settings (class_id=19, version=0) 330 7.12 IEC HDLC settings (class_id=23, version=0) 332 7.13 IEC Twisted Pair (1) Settings (class_id=24, version=0) 333 7.14 PSTN Modem Configuration (class_id=27, version=0) 334 7.15 Auto Answer (class_id=28, version=0) 336 7.16 PSTN automatic dialing (class_id=29, version=0) 337 7.17 Automatic connection (class_id=29, version=1) 338 7.18 GSM diagnostics (class_id=47, version=0) 339 7.19 S-FSKPhy 7.20 S-FSKDL/T 790.432LLC setting (class_id=55, version=0) 345 7.21 Compressed data (class_id=62, version=0) 346 7.22 M-Bus Client (class_id. 72, Version. 0) 348 7.23 G3NBOFDMPLCMAC layer counter (class_id=90, version=0) 352 7.24 G3NBOFDMPLCMAC setting (class_id=91, version=0) 353 7.25 Adaptation layer setting of G3NBOFDMPLC6LoWPAN (class_id=92, version=0) 357 Appendix A (informative) Information on accessories for automatic answering and automatic connection ICs 363 Appendix B (informative) Additional information for the M-Bus client (class_id=72, version=1) 364 Appendix C (informative) Additional information about the IPv6 setting class (class_id=48, version=0) 366 Appendix D (Informative) Overview of Narrowband OFDMPLC Technology for PRIME Networks 370 Appendix E (informative) Overview of narrowband OFDMPLC technology for G3-PLC networks 371 Appendix F (informative) and IEC 62056-6-2.2016 major technical changes 372 Appendix NA (informative) and major technical changes in each version 373 References 377

Foreword

GB/T 17215 "AC measuring equipment" is divided into several parts, GB/T 17215.6 "Electrical measurement data exchange DLMS/COSEM Components are divided into the following sections. --- Part 10. Intelligent Measurement Standardization Framework; --- Part 11. DLMS/COSEM communication configuration standard template; --- Part 31. Local area network use based on twisted pair carrier signals; --- Part 46. Data link layer using HDLC protocol; --- Part 47. DLMS/COSEM transmission layer based on IP network; --- Part 53. DLMS/COSEM application layer; --- Part 61. Object Identification System (OBIS); --- Part 62. COSEM interface class; --- Part 73. Wired and wireless M-Bus communication configurations for local and community networks; --- Part 76. HDLC-based connection-oriented three-layer communication configuration; --- Part 91. Communication configuration using the WEB service to access the COSEM server via CAS; --- Part 97. Communication configuration based on TCP-UDP/IP network. This part is the 62nd part of GB/T 17215.6. This part is drafted in accordance with the rules given in GB/T 1.1-2009. This part replaces GB/T 19882.32-2007 "Automatic Meter Reading System Part 3-2. Application Layer Data Exchange Protocol Interface Class", See Appendix NA for major technical changes compared to GB/T 19882.32-2007. This section uses the translation method equivalent to IEC 62056-6-2.2017 "Electrical Measurement Data Exchange DLMS/COSEM Component Section 6-2 Part. COSEM Interface Class. The documents of our country that have a consistent correspondence with the international documents referenced in this part are as follows. ---GB/T 12406-2008 Code representing currency and funds (ISO 4217.2001, IDT); --- GB/T 19897.1-2005 Automatic meter reading system low-level communication protocol - Part 1. Direct local data exchange (IEC 62056-21.2002, MOD). This section has made the following editorial changes. --- The standard name was changed from part 6-2 to part 62; --- Increase the main technical changes in Appendix NA (informative appendix) and each version. Please note that some of the contents of this document may involve patents. The issuing organization of this document is not responsible for identifying these patents. This part was proposed by the China Machinery Industry Federation. This part is under the jurisdiction of the National Electrotechnical Instrumentation Standardization Technical Committee (SAC/TC104). The units drafted in this section. Harbin Electric Instrument Research Institute Co., Ltd., Yunnan Power Grid Co., Ltd. Electric Power Research Institute, smoke Taiwan Oriental Weston Electric Co., Ltd., China Electric Power Research Institute Co., Ltd., Shenzhen Kelu Electronic Technology Co., Ltd., Hangzhou Haixing Power Technology Co., Ltd., Shenzhen Aerospace Tairuijie Electronics Co., Ltd., Guangdong Dongfang Telecommunications Technology Co., Ltd., Jiangsu Linyang Energy Co., Ltd., Zhejiang Chentai Technology Co., Ltd., Qingdao Dingxin Communication Co., Ltd., Heilongjiang Province Electrical Instrumentation Engineering Technology Research Center Co., Ltd., Ningbo Samsung Medical Electric Co., Ltd., Huali Technology Co., Ltd. The main drafters of this section. Shen Xin, Guan Wenju, Zhang Dengqing, Wang Wenguo, Yang Honglei, Yao Qing, Hou Qingquan, Xiao Weifeng, Jiang Bin, Chen Wenxin, Zhang Jianhui, Zhao Wei, Qi Ruipeng, Chen Jie, Ma Xiaohui, Wu Qingzao, Guo Wei, Qin Guoxin. This section replaces the standard previous versions of the release. GB/T 19882.32-2007.

Introduction

The third edition of IEC 62056-6-2 has been prepared by IEC TC13WG14, IEC TC13WG14 for the DLMS User Association and its Type D contact partners have made significant contributions. This version complies with the DLMSUA Blue Book version 12.2. The main new feature is the "Arraymanager" IC, "Compactdata" IC 1st edition, 1st edition of "GSMdiagnostic" IC, "LTEmonitoring" IC, "NTPsetup" IC, HS-PLC setting IC and phase Off the new OBIS code. Object modeling and data identification Business needs of energy market participants (usually in a liberalized, competitive environment) and effective management of natural resources and Driven by the will of consumers, utility meters have become part of a comprehensive metering, control and billing system. The meter is no longer A simple data logging device, but relying on communication capabilities. System integration ease, interoperability and data security are important Required requirements. COSEM, a companion specification for energy metering, that responds to these by using the instrument as part of a complex measurement and control system challenge. The meter needs to be able to transfer measurements from the metering point to the business layer that uses them. It also needs to be able to provide letters to consumers Interest, manage consumption, and ultimately be able to generate locally. COSEM uses object modeling technology to model all the functions of the meter without having to assume which features need support, such as The above requirements are achieved by how to implement these functions and how to transfer data. The formal specification of the COSEM interface class constitutes The main part of COSEM. In order to process and manage information, all data items need to be uniquely identified in a manner that is independent of the manufacturer. OBIS (object identification system) The definition of the system is another important part of COSEM. It is based on DIN 43863-3.1997 "Electrical Energy Meter Part 3. as Rate metering device (EDIS) energy data identification system for electric energy meter attached equipment. The OBIS code set has been greatly expanded over the years to New needs. COSEM models utility meters as server applications (see 4.7) used by client applications, through COSEM Controlled access to the object retrieves meter data in the client application, provides control information to the meter, and triggers known actions within the meter. The client acts as a third-party agent, the business process of the energy market participants. The standardized COSEM interface classes form an extensible library. Manufacturers use the elements of the library to design to meet various requirements product. The server provides a way to retrieve the supported functionality, the instantiated COSEM object. These objects can be organized into logical devices Connect with the app and provide specific access to various clients. The concept of a standardized interface library provides diversity for different users and manufacturers while ensuring interoperability. The International Electrotechnical Commission (IEC ) draws attention to the fact that compliance with this document may involve the use of patents relating to image transmission procedures. The IEC has no position on the evidence, validity and scope of the patent. The holder of the patent has assured the IEC that he/she is willing to offer free or reasonable and non-discriminatory terms to applicants around the world. And conditional negotiation licenses. In this regard, the patent holder's statement has been registered with the IEC . Information can be obtained from Itron, Inc., Obtained by LibertyLake, Washington, USA. Please note that some of the contents of this document may be the subject of patents other than those mentioned above. The IEC is not responsible for determining any or all of these patent. The IEC (http.//patents.iec.ch) maintains an online database of patents related to its standards. Encourage users to check the most relevant patents A database of new information. Admit The actual files are maintained by the WG of DLMSUA. 5.3.7 and 5.3.9 are based on parts of the NIST file. Reprinted from the National Institute of Standards and Technology of the US Department of Commerce and the Technical Administration. Not protected by copyright in the United States. The IEC 62056-XY series of standards corresponds to the national standard GB/T 17215.6XY series. Electrical measurement data exchange DLMS/COSEM component Part 62. COSEM Interface Class

1 Scope

This part of GB/T 17215.6 specifies a meter model as seen from the communication interface. Define an object using an object-oriented approach Use components to model the instrument from simple functions to very complex functions in the form of interface classes. Appendix A ~ Appendix F (both informative) provides additional information related to some interface classes.

2 Normative references

The following documents are indispensable for the application of this document. For dated references, only the dated version applies to this article. Pieces. For undated references, the latest edition (including all amendments) applies to this document. GB/T 15629.2-2008 Information technology systems - Telecommunications and information exchange - Particular requirements for local and metropolitan area networks Part 2. Logical Link Control (ISO /IEC 8802-2.1998, IDT) GB/T 17215.631-2018 Electrical measurement data exchange DLMS/COSEM components - Part 31. s. LAN use of signals (IEC 62056-3-1.2013, IDT) Note. This version is referenced in the interface class "IEC Twisted Pair (1) Settings" (class_id. 24, version. 1). GB/T 17215.646-2018 Electrical measurement data exchange DLMS/COSEM components - Part 46. Based on HDLC Data link layer (IEC 62056-4-6.2002, IDT) 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 17215.661-2018 Electrical measurement data exchange DLMS/COSEM components - Part 61. Object identification system (IEC 62056-6-1..2017, IDT) GB/T 19897.4-2005 Low-level communication protocol for automatic meter reading systems Part 2. Local area network based on twisted pair carrier signals Use (IEC 62056-31.1999, IDT) Note. This version is referenced in the interface class "IEC Twisted Pair (1) Settings" (class_id. 24, version. 0). GB/T 26831.2-2012 Community energy metering and copying system specification Part 2. Physical layer and link layer (EN13757-2. 2004, IDT) DL/T 790.432-2004 Distribution automation using distribution line carriers - Part 4-32. Data communication protocol data link layer - Logical Link Control (IEC 61334-4-32.1996, IDT) DL/T 790.441-2004 Distribution automation using distribution line carriers - Part 4-41. Data communication protocol application layer protocol - Distribution wire message specification (IEC 61334-4-41.1996, IDT) DL/T 790.4511-2006 Distribution automation using distribution line carriers - Part 4-511. Data communication protocol system management CIASE Agreement (IEC 61334-4-511..2000, IDT) DL/T 790.4512-2006 Distribution automation using distribution line carriers - Part 4-512. Data communication protocol system management System Management Information Base (MIB) using DL/T 790.51 protocol set (IEC 61334-4-512.2001, IDT) DL/T 790.51-2002 Distribution automation using distribution line carrier Part 5. Low-level protocol set Part 1. Spreading frequency shifting Keying (S-FSK) protocol (IEC 61334-5-1.2001, IDT) IEC TR62055-21.2005 Electrical Measurement Payment System Part 21. Standard Framework (Electricity metering- ......

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