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Automatic meter reading system -- Part 3-2: Application layer data exchange protocols -- Interface class
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Basic data | Standard ID | GB/T 19882.32-2007 (GB/T19882.32-2007) | | Description (Translated English) | Automatic meter reading system -- Part 3-2: Application layer data exchange protocols -- Interface class | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | N22 | | Classification of International Standard | 17.220.20 | | Word Count Estimation | 74,797 | | Date of Issue | 2007-10-11 | | Date of Implementation | 2007-12-01 | | Quoted Standard | GB/T 19897.1-2005; GB/T 19897.2-2005; GB/T 19897.4-2005; GB/T 19882.31-2007; GB/T 19882.33-2007; DL/T 790.41-2002; IEC 60050.300-2001; IEC 62051-1999; ANSI C12.19-1997/IEEE 1377-1997 | | Adopted Standard | IEC 62056-63-2002, IDT | | Regulation (derived from) | China Announcement of Newly Approved National Standards No. 11 of 2007 (total 111) | | Issuing agency(ies) | General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China, Standardization Administration of the People's Republic of China | | Summary | This standard specifies the requirements in this section from a communication received from the communication interface perspective view of the instrument model. This section uses object-oriented approach defines several generic combination blocks to interface class is constructed in the form of a simple function to very complex functions of the instrument model. | GB/T 19882.32-2007: Automatic meter reading system -- Part 3-2: Application layer data exchange protocols -- Interface class
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Automatic meter reading system Part 3-2. Application layer data exchange protocols Interface clasess
ICS 17.220.20
N22
National Standards of People's Republic of China
GB/T 19882.32-2007/IEC 62056-62.2002
Automatic meter reading system
Part 3-2. Application layer data exchange protocol interface class
(IEC 62056-62.2002, Electricitymetering-
Dataexchangeformeterreading, tariffandlaodcontrol-
Part 62. Interfaceclasess, IDT)
Posted 2007-10-11 2007-12-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Introduction Ⅲ
Introduction Ⅳ
1 Scope 1
2 Normative references 1
3 Terms, Definitions and Abbreviations 1
3.1 Terms and definitions
3.2 Abbreviations 2
4 Fundamentals 2
4.1 Overview 2
4.2 Class 3
4.3 common data type 5
4.4 represents the date and time of the data format 5
4.5 COSEM server model 7
4.6 COSEM logical device 7
4.7 authentication process 8
5 interface class 9
5.1 Data (Data) (class_id. 1) 10
5.2 Register (Register) (class_id. 3) 10
5.3 Expansion register (Extendedregister) (class_id. 4) 12
5.4 demand register (Demandregister) (class_id. 5) 13
5.5 Register activation (Registeractivation) (class_id. 6) 15
5.6 Universal set (Profilegeneric) (class_id. 7) 16
5.7 Clock (Clock) (class_id. 8) 20
Script Table 5.8 (Scripttable) (class_id. 9) 22
5.9 schedule (Schedule) (class_id. 10) 23
5.10 Special days table (Specialdaystable) (class_id. 11) 26
Event Calendar 5.11 (Activitycalendar) (class_id. 20) 26
5.12 Connecting LN (AssociationLN) (class_id. 15) 29
5.13 Connecting SN (AssociationSN) (class_id. 12) 32
5.14 SAP allocation table (SAPassignment) (class_id. 17) 34
5.15 Register Monitor (Registermonitor) (class_id. 21) 35
5.16 Practical table (Utilitytables) (class_id. 26) 36
5.17 Single Operation schedule (Singleactionschedule) (class_id. 22) 37
Maintenance 6 interface class 38
6.1 The new interface class 38
The new version 6.2 of the interface class 38
6.3 interface class undo 38
Appendix A (normative) and related protocols interface class 39
GB/T 19882.32-2007/IEC 62056-62.2002
A. 1 IEC local port start (category _ standard. 19) 39
A. 2 PSTN modem configuration (category _ standard. 27) 40
A. 3 PSTN automatic response (class _ standard. 28) 41
A. 4 PSTN Auto Dial (class _ standard. 29) 43
A. 5 IEC HDLC start (category _ standard. 23) 44
A. 6 IEC twisted pair (1) Start (class _ standard. 24) 45
Appendix B (normative) data models and protocols 47
Annex C (normative) using the short name to access the properties and methods 48
C. 1 48 allocation criteria abbreviated name
C. 2 Reserved basic name 55 _ special COSEM objects
Annex D (normative) Relationship between standard and OBIS 56
D. 1 data item is mapped to the COSEM objects and attributes 56
D. 2 OBIS identification decoder 66
Annex E (informative) interface class earlier version 67
References 68
GB/T 19882.32-2007/IEC 62056-62.2002
Foreword
"Automatic Meter Reading System application layer data exchange protocol" is divided into three parts.
--- Part 3-1. Object identification system (IEC 62056-61.2002, IDT);
--- Part 3-2. Interface classes (IEC 62056-62.2002, IDT);
--- Part 3-3. COSEM application layer (IEC 62056-53.2002, IDT).
This section "Automatic Meter Reading System application layer data exchange protocol" in Part 3-2.
This section is identical with IEC 62056-62.2002.
"Automatic Meter Reading System application layer data exchange protocol" is an important part of the national standards system of "automatic meter reading system." under
Listed below "Automatic meter reading system" and is expected to promulgate national standards with international standards and the corresponding structure.
a) GB/T 19882.1-2005 "General automatic meter reading system."
b) "automatic meter reading system meter reading system"
--- Part 2-1. Low-voltage power line carrier meter reading system;
--- Part 2-2. Wireless communication meter reading system;
--- Part 2-3. IP-based network meter reading system.
c) "automatic meter reading system application layer data exchange protocol."
--- Part 3-1. Object identification system (IEC 62056-61.2002, IDT);
--- Part 3-2. Interface classes (IEC 62056-62.2002, IDT);
--- Part 3-3. COSEM application layer (IEC 62056-53.2002, IDT).
d) GB/T 19897-2005 "Automatic Meter Reading System Lower Layer Communication Protocol"
--- Part 1. Direct local data exchange (IEC 62056-21.2002, IDT);
--- Part 2. LAN-based twisted pair with carrier signaling (IEC 62056-31.1999, IDT);
--- Part 3. physical layer connection-oriented service processes asynchronous data exchange (IEC 62056-42.2002, IDT);
--- Part 4. Based on the HDLC link layer protocol (IEC 62056-46.2002, IDT).
This section of the Appendix A, Appendix B, Appendix C, Appendix D is a normative appendix, Appendix E is an information appendix.
This part is proposed by China Machinery Industry Federation.
This part of the National Electrical Instrument Standardization Technical Committee.
This section is drafted. Harbin Electrical Instrument Research Institute, Northwest Electric Power Research Institute, Xi'an Huitong Control Technology Co., Guangzhou
Legislative Branch General Electric Company, Beijing Watchdata Intelligent Technology Co., Ltd. Hangzhou Zhiyuan Electronics Co., Ltd., Beijing Power Supply Bureau, Holley Group company,
Zhejiang Chint Instrument Co., Ltd., Changsha Weisheng Instrument Co., Ltd., Shenzhen Kaifa Technology Co., Ltd., Nanjing Automation Research Institute.
The main drafters of this section. Yang West, Huangguo Bing, district Jianbin, Chen Hongjun, Zhang Xiaoping, FAN Guo-ping, Zheng Xiaoping, Guo Huaxi, Pingyu Gui,
Guan Wenju.
GB/T 19882.32-2007/IEC 62056-62.2002
Introduction
The public sector to obtain the best commercial interests in metering and billing system, the increasing use of instrumentation. In the past, the instrument
The main business value from their data acquisition and processing capabilities, now mainly from system integration and interoperability.
Energy Metering supporting technical specifications (COSEM) to address the instrument as part of a business process brought about after all
Many challenges, the business process from the measurement of the delivered product (energy) start to charges levied so far.
According to the characteristics of public sector business processes, standardize the instrument by "behavioral characteristics" to determine the official technical specifications established on
Like basic modeling techniques (interface classes and objects) on the technical specifications of these objects constitute the main part of the COSEM.
COSEM server model (see 4.5) on behalf of the externally visible part of the instrument only. Support public sector, users and instrument manufacturers
Client server applications have adopted this model. Instrumentation recourse to its structural model (the list of objects can be seen on the dial) provides
Retrieval means, and provides access to the attributes and special treatment of these objects.
Various collection of different interface classes constitute a standard library, the manufacturer may choose the standard library to produce a subset (modeling) own
The product. Design requirements can be applied to all elements of the product (from residents to the commercial and industrial applications). Select the interface class to build a meter
Subset, as well as its installation and implementation methods are part of the product design, which left to the discretion of the manufacturer. Standardized instrument connected
The concept of opening the library offers many options for different users and manufacturers but without losing interoperability.
GB/T 19882.32-2007/IEC 62056-62.2002
Automatic meter reading system
Part 3-2. Application layer data exchange protocol interface class
1 Scope
This section provides viewing angle from the communication interface model of a meter. This section uses an object-oriented approach defines several common combinations
Block, in the form of interface classes to the simple functions to very complex functional model of a meter.
2 Normative references
The following documents contain provisions which, through reference GB/T 19882 in this section constitute provisions of this section. For dated reference documents
Member, all subsequent amendments (not including errata content) or revisions do not apply to this section, however, encouraged to reach under this section
Parties to research agreement to use the latest versions of these documents. For undated reference documents, the latest versions apply to this
section.
GB/T 19897.1-2005 Automatic Meter Reading System Lower Layer Communication Protocol Part 1. Direct local data exchange (IEC 62056-
21.2002, IDT)
GB/T 19897.2-2005 Automatic Meter Reading System Lower Layer Communication Protocol Part 2. Twisted Pair LAN-based carrier signal so
With (IEC 62056-31.1999, IDT)
GB/T 19897.4-2005 Automatic Meter Reading System Lower Layer Communication Protocol Part 4. Based on the HDLC protocol link layer
(IEC 62056-46.2002, IDT)
Part 3-1 GB/T 19882.31-2007 Automatic Meter Reading System. Application layer data exchange protocol object identification system
(IEC 62056-61.2002, IDT)
Part 3-3 GB/T 19882.33-2007 Automatic Meter Reading System. Application layer data exchange protocol COSEM application layer
(IEC 62056-53.2002, IDT)
DL/T 790.41-2002 using distribution line carrier distribution automation - Part 4. Data communication protocols - Section 1. Communication System
Reference Model (IEC 61334-4-41.1996, IDT)
IEC 60050.300.2001 International Electrotechnical Vocabulary - Electrical and electronic measurements and measuring instruments
The basic terms related to measurement. Part 311
Basic terms relating to electrical measurements. Part 312
Types of electrical measuring instruments. Section 313
Part 314. Specific terms according to the classification of the instrument
IEC 62051.1999 Electrical Measurement Glossary
ANSIC12.19.1997/IEEE1377.1997 Public Sector terminal equipment data sheets
3 Terms, definitions and abbreviations
3.1 Terms and Definitions
IEC 60050-300 and IEC 62051 as well as established the following terms and definitions apply to this section.
3.1.1
COSEM interface object with the first attribute "Logical_name" (logical name) that corresponds short_name (short name).
GB/T 19882.32-2007/IEC 62056-62.2002
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