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GB/T 34064-2017 English PDF

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GB/T 34064-2017: Common automation device -- Profile guideline
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PDF similar to GB/T 34064-2017


Standard similar to GB/T 34064-2017

GB/T 33009.1   GB/T 33008.1   GB/T 33009.2   GB/Z 34066   GB/T 34071   

Basic data

Standard ID GB/T 34064-2017 (GB/T34064-2017)
Description (Translated English) Common automation device -- Profile guideline
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard N10
Classification of International Standard 25.040.40
Word Count Estimation 62,679
Date of Issue 2017-07-31
Date of Implementation 2018-02-01
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

GB/T 34064-2017: Common automation device -- Profile guideline

---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
Common automation device - Profile guideline ICS 25.040.40 N10 National Standards of People's Republic of China General automation equipment line regulation (IEC /T R62390.2005, IDT) 2017-07-31 Posted 2018-02-01 implementation General Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China China National Standardization Administration released Directory Foreword V. Introduction Ⅵ 1 Scope 1 2 Normative references 1 3 Definitions and Abbreviations 2 3.1 Definition 2 3.2 Abbreviations 4 4 Guideline Overview 5 5 Automation Models and Equipment Profile 5 5.1 ISO 15745 5 5.2 Typical Automation Configuration 6 5.3 modular equipment structure 7 5.4 Interface Module 9 Line 6 defines the steps 9 6.1 Summary 9 6.2 First Steps. Scope, Compatibility Levels, and Equipment Classification 11 6.2.1 Overview 11 6.2.2 Compatibility Level 11 6.2.3 Equipment category 14 6.3 The second step. The definition of basic functions and their relationship 14 6.4 The third step. Definition of parameter grouping and aggregation 14 6.5 Step 4. Group and map functional components by their basic functions 16 6.5.1 Description 16 6.5.2 Example of Flow Transmitter Using Object Model and Function Block Model 16 6.6 Step 5. Equipment Behavior Description Classification 17 6.7 Step 6 (Optional). Extension of existing rules 19 7 line template 19 7.1 Overview 19 7.2 line template structure 19 7.2.1 General appearance 19 7.2.2 equipment line regulation 19 7.2.3 Parameter Table 19 7.2.4 Equipment Functional Structure 7.2.5 Template Format 20 Equipment model 22 8.1 Device Line Class Mapping 22 8.2 Functional Block Models and Comparison of Object Models 24 Appendix A (Informative) Life Cycle Equipment Task 25 Appendix B (Informative) Aggregation of Parameter Characteristics 26 Appendix C (Informative) Compatibility Level Details 28 Appendix D (informative) data types 29 Appendix E (Informative) Engineering Units 30 Appendix F (informative) UML class diagram semantics 33 Appendix G (informative) equipment classification example 34 Appendix H (Informative) Parameter Table Model 37 Appendix I (informative) function block model 38 I.1 Background 38 I.2 Control System Structure Modes 39 I.3 Function Block Mode 40 I.4 Proxy Function Block 41 I.5 decentralized control structure according to IEC /PAS61499-1 I.6 Function Block Model in Process Control Equipment 43 Appendix J (informative) object model 45 J.1 Background 45 J.2 Object Modeling Example 45 J.3 Device Object Model 47 Appendix K (Informative) Common line of sight and equipment identification information 50 Figure 1 Routine Documents and Rules and Regulations Ⅵ Figure 2 uses the GB/T 19659.1 line regulation development 6 Figure 3 Typical Automation Applications 7 Figure 4 device hardware structure and software structure modular view (example) 8 Figure 5 equipment structure class diagram (example) 8 Figure 6 equipment common interface module 9 Line 7 of Figure 7 defines the steps Figure 8 line regulation and the relationship between products 11 Figure 9 Functional Compatibility Level 12 Figure 10 Power Drive System (PDS) Functional Diagram (Example) 14 Figure 11 UML usage conditions (example) 15 Figure 12 Flow Transmitter Device Functional Structure Based on Object Model (Example) 16 Figure 13 Functional Block Model Based Flow Transmitter Device Functional Structure (Example) 17 Figure 14 Device behavior as a status diagram (example) 18 Figure 15 GB/T 19659.1 equipment line regulation block diagram 22 Figure 16 Device Profile Type 23 Figure F.1 Description part in UML class diagram Figure I.1 from P Figure I.2 Function Blocks Implemented in Different Devices 39 Figure I.3 Function Block Application in Control System Structure Mode 40 Figure I.4 Function Block 40 of IEC 61131-3.2003 Figure I.5 Function Blocks in Field Devices and Their Integration in Control Programs 41 Figure I.6 IEC 61131-3 Concept of Centralized Controller 41 Figure I.7 Proxy Function Block and Communication Function Block 42 Figure I.8 Function Block Application Distributed in Equipment According to IEC /PAS 61449-1 Figure I.9 Applications distributed in field devices 43 Figure I.10 Function Block Model in Field Devices 44 Figure J.1 Object Model Parts and Procedures Programming Part 46 Figure J.2 Object Addressing 47 Figure J.3 Device Object Model 47 Figure J.4 Assembling Objects 48 Figure J.5 Parameter Object 49 Figure J.6 Communication Management Objects (Example) 49 Table 1 Equipment Application and Communication Features 12 Table 2 Interchangeability Matrix for Device Interchange 13 Table 3 Device Behavior by State Transition Table (Example) 18 Table 4 equipment template rules fill (example) 21 Table 5 The equivalency of the functional block model and the object model 24 Table B.1 Aggregation of Parameter Characteristics 26 Table C.1 Relationship between parameter characteristics and equipment characteristics 28 Table D.1 Data Types 29 Table E.1 Engineering Units (Example) 30 Table G.1 Equipment Classification (Classification) (Example) 34 Table K.1 common profile components header (GB/T 19659.1-2005 Table 1) 50 Table K.2 common identification parameters stored in the device 52 Reference 53

Foreword

This standard was drafted in accordance with the rules given in GB/T 1.1-2009. This standard uses the translation method identical with IEC /T R62390.2005 "Universal Automation Equipment Line Regulations." The documents of our country that are consistent with the corresponding international documents that are normative references in this standard are as follows. --- GB/T 21099 (all parts) process control function block (FB) [IEC 61804 (all parts)]; --- GB/T 19659 (all parts) Industrial automation systems and integrated open systems application integration framework [ISO 15745 (all section)]. This standard is proposed by the China Machinery Industry Federation. This standard by the National Institute of Industrial Process Control and Automation Standardization Technical Committee (SAC/TC124) centralized. This standard was drafted unit. Beijing Jin Lishi Instrument Technology Co., Ltd., Shenzhen Biao Li Technology Development Co., Ltd., Zhengzhou Municipal Engineering Survey and Design Institute, Southwest University, China Sihe Instrumentation Group Co., Ltd. The main drafters of this standard. Palace Gong Yong, Chen Ru, China North Korea, Duan Jingkui, Huang Wei, Liu Jin, Gong Xiaodong, Zhang Xin Guo, Huang Qiao Li, Yang Songhua.

Introduction

This standard is a summary of the recommendations for the development of standardized product committees, fieldbus consortia and product manufacturers and the provision of networking Equipment regulations, some aspects of this standard also applies to independent equipment. Currently, device users face a variety of devices for publishing information And behavioral concepts and methodologies. This led to a long period of user evaluation in order to understand how to use and apply networked work Industry equipment. These differences lead to the determination of device interoperability, interchangeability, comparability, and general device behavior become very difficult Therefore, this standard hopes to provide a common and more common way to publish device information and behavior, its contribution is to reduce the industrial The overall cost of the control system. Line rules define a common set of capabilities for a device in a given industrial area, thus allowing system designers, system integrators, and Maintenance staff can process line-based equipment without the need for special tool configurations, and also allows the structure and semantics of equipment functions to be consistent. NOTE Other techniques may also be used to support the integration of devices into a control system, in reality using communication and engineering tools to handle a specific manufacturer's expansion exhibition. Device Description Language is an example of these technologies that detail the internal structure of a device or a standardized software interface so that each device Can use a dedicated software components to represent. Figure 1 shows a variety of possible profile documents and a typical creator of each document, which also shows the order in which the profile documents were developed, The purpose of the standard is to serve as the basis for the development of codes of practice and product codes for other working groups, from which standards can be developed In the end, manufacturers can create specific device descriptions for their products. Equipment rules document preparation There may be some shortcuts between. Figure 1 rules and regulations and line rules makers This standard recommends the minimum content requirements and construction rules for equipment profiles, provides a recommended common equipment model, applicability Analysis, the use of UML (Unified Modeling Language) and methodological standards of the design block diagram to build the model. This standard on the equipment rules of non-human users (such as software tools and applications such as electronic documents) how to express the necessary equipment to mention Proposals were made, including the use of the XML (Extensible Markup Language) standard. General automation equipment line regulation

1 Scope

This standard for the industrial field equipment and control equipment, equipment development regulations to provide guidance, and industrial field equipment and control equipment complex Degree has nothing to do. Note 1. Examples of devices cover limit switches and contactors for simple equipment networks, medium complexity devices such as transmitters and actuators in process control to And complex equipment such as electric drive systems used in fieldbus. Note 2. This standard is also recommended for programmable controllers, network components and HMI devices. If a device is user-programmable, it is introduced in this guide Its characteristics (eg, parameters and behavior) are difficult to describe completely in the line regulation, however, and line planners should agree on common common functions such as Move, stop, reset, and identify and process inputs/outputs. Device profiles cover various aspects such as physical, functional, communications, electrical, functional safety, and application systems, whether these aspects are No Internet access. This standard focuses on the functional aspects of the equipment (see 3.1.9). Note 3. Different users of device profiles, such as device manufacturers, system integrators, and maintenance personnel, may use only certain aspects of the profile. This standard is not dependent on a specific network developed, therefore, it can be applied to a variety of field bus, including Ethernet Network of industrial networks. This standard is intended for the relevant product standards committee and industrial communication network alliance to develop equipment and organization rules knot Structure, and do not intend to provide a summary of a particular device profile. Furthermore, this standard gives the equipment model for better guidance and planning The content of a device profile allows the structure of the device to be expressed in a specific way using parameter tables, function block models and/or object models And characteristics, the specific model used by the line regulation decision. Requires a common method to express device profile information, which is very useful for users, this standard recommends the use of device profile template, An example of a template is given, which serves as the basic structure and content for developing follow-up templates for the related rules and regulations. This standard allows users of line regulations to compare, determine interoperability and interchangeability, and identify common device characteristics. GB/T 19659.1 is covered by the industrial application and process development is not within the scope of this standard.

2 Normative references

The following documents for the application of this document is essential. 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 19659.1-2005 industrial automation systems and integrated open systems application integration framework - Part 1. General reference Description (ISO 15745-1.2003, IDT) IEC 61131-3-2003 programmable logic controller Part 3 programming language (Programmablecontrollers - Part 3. Programminglanguages) IEC /PAS61499-1.2000 Functional blocks for industrial process measurement and control systems - Part 1. Function (Functionblocks forindustrial-processmeasurementandcontrolsystems-Part 1.Architecture) Functional Blocks for Industrial Process Measurement and Control Systems Part 2. Software Tools Requirements (Function blocksforindustrial-processmeasurementandcontrolsystems-Part 2.Softwaretoolsrequirements) IEC /PAS 61804-2-2004 Function Blocks for Process Control (FB) Part 2. Function Block Concepts and Electronic Device Description Language (EDDL) [Functionblocks (FB) forprocesscontrol-Part 2.SpecificationofFBconceptandElectronic DeviceDescriptionLanguage (EDDL)]

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