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GB/T 26336-2010: Industrial communication networks -- Installation of communication networks in industrial premises
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Industrial communication networks -- Installation of communication networks in industrial premises
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GB/T 26336-2010
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Basic data | Standard ID | GB/T 26336-2010 (GB/T26336-2010) | | Description (Translated English) | Industrial communication networks -- Installation of communication networks in industrial premises | | Sector / Industry | National Standard (Recommended) | | Classification of Chinese Standard | N10 | | Classification of International Standard | 25.040 | | Word Count Estimation | 122,174 | | Date of Issue | 2011-01-14 | | Date of Implementation | 2011-06-01 | | Quoted Standard | GB 3836.15; GB/T 13534; GB/T 14048.10; GB/T 15157.7; GB/T 16657.2; GB/T 16895.1-2008; GB/T 16895.3; GB/T 18233-2008; ISO/IEC 8802-3; ISO/IEC 14763-1; ISO/IEC 14763-2; ISO/IEC 14763-3; ISO/IEC 18010; ISO/IEC 24702-2006; IEC 60364-4-41; IEC 60364-4-44; IEC 60793-1-1; IEC 60793-1-53; IEC 60793-1-45; IEC 60793-2; IEC 60793-1-43; IEC 60793-2-60; IEC 60793-1-33; IEC 60793-1-49; IEC 60793-1-47; IEC 60793-2-20; IEC 60793-2-50; IEC 60793-1-20; IEC 60793-1-46; IEC 60793-1-51; IEC 60793-2-10; IEC 60793-1-48; IEC 60793-1-41; IEC 60793-1-34; IEC 60793-1-44; IEC 60793-1-30; IEC 60793-1-22; IEC 60793-1-40; IEC 60793-2-40; IEC 60793-1-32; IEC 60793-1-21; IEC 60793-2-30; IEC 60793-1-52; IEC 60793-1-50; IEC 60793-1-31; IEC 60793-1-54; IEC 60793-1-42; IEC 60794-2-20; IEC 60794-3-40; IEC 60794-2-21; IEC 60 | | Adopted Standard | IEC 61918-2007, IDT | | Regulation (derived from) | National Standard Approval Announcement 2011 No.114 | | 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 basic requirements for a communications network media industry environment and industrial automation scene between the island and the island of installation. This standard includes symmetrical cable wiring and fiber optic cabling, and wireless media cabling infrastructure, but does not include wireless media itself. Other media see IEC 61784-5 series of standards. This standard is the standard for industrial automation island supporting communication networks, especially for IEC 61158 and IEC 61784 series of standards set forth in series communication network. | GB/T 26336-2010: Industrial communication networks -- Installation of communication networks in industrial premises
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Industrial communication networks. Installation of communication networks in industrial premises
ICS 25.040
N10
National Standards of People's Republic of China
Industrial communication networks
Industrial environment communications network installation
(IEC 61918.2007, IDT)
Issued on. 2011-01-14
2011-06-01 implementation
Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
Standardization Administration of China released
Table of Contents
Preface Ⅶ
Introduction Ⅷ
1 Scope 1
2 Normative references 1
3 Terms and definitions, abbreviations 3
3.1 Terms and definitions 3
3.2 Acronyms 10
3.3 Installation profiles conventions 12
Installation Design 4 12
4.1 Overview 12
4.2 Design Requirements 14
4.3 network capabilities 16
Selecting and using a wiring member 20 4.4
4.5 cabling design documents 37
4.6 cabling design verification specification 37
5 Install achieve 38
5.1 General requirements 38
38 5.2 Cable Installation
5.3 Connector installation 44
5.4 Termination Resistor Installation 44
5.5 Installation 45
5.6 Coding and marking 45
Grounding and equipotential 5.7 devices, equipment, and shielded cabling connections 45
5.8 realize wiring documents 49
6 installation verification and acceptance testing installation 49
6.1 Overview 49
6.2 Installation Verification 49
6.3 Installation Acceptance Test 53
7 Installation Manager 57
7.1 Overview 57
7.2 field of application management 57
Basic Principles of Management System 7.3 57
7.4 Working procedures 57
7.5 equipment location markings 58
7.6 parts wiring mark 58
7.7 Document 59
7.8 59 specific management requirements
8 Installation and Maintenance Installation Troubleshooting 59
8.1 Overview 59
8.2 Maintenance 60
61 8.3 Fault Detection
Particular requirements 8.4 Maintenance and Troubleshooting 65
Introduction Appendix A (informative) cabling for industrial environments 66
Appendix B (Informative Appendix) MICE Description Act 67
Annex C (informative) network topology 74
Annex D (informative) Connector Table 76
Annex E (informative) Consider electromagnetic interference for grid -TN-C and TN-S method 82
Appendix F (Informative Appendix) mm2 to 84 AWG conversion table
Annex G (informative) Table 85 validation check wiring already installed
Appendix H (informative) connector/89-pin connector cable
(Informative) Guide Appendix I terminate a cable terminal 93
Appendix J (informative) about Tube Fittings channel connectivity and performance in more than four channels connected to the 99 recommendations
Annex K (informative) Fieldbus Data transmission test 100
Annex L (informative) communications network installation work responsibilities 103
Annex M (informative) communication profiles trademark 104
Annex N (informative) Confirm the measurement 105
References 110
Figure 1 Industrial Network Installation lifecycle Ⅸ
Figure 2 standard relations between Ⅹ
3 is connected to the island of automation integrated wiring structure 12
Figure 4 is connected to the island of automation cabling element wiring 12
Figure 5 Automation Island 13
Figure 6 automation island outside the network connection 13
7 how to meet environmental conditions 15
8 combination isolation, separation and improved method 16
The basic passive network topology diagram 9 of 17
The basic active network topology map 10 17
Example 11 combined basic topology of FIG. 17
12 Basic Reference Implementation Model 25
13 with reference to FIG enhanced implementation model 26
14 Select 30 grounding and bonding system of FIG.
15 in a mesh configuration equipotential equipotential bonding and grounding wiring 32
Ground wiring 16 star-ground configuration 33
Schematic 17 field devices directly grounded 33
Schematic 18 field devices to ground through a parallel RC circuit in Fig. 34
FIG. 19 is inserted edge protection 39
Figure 20 uses the unwinding means and avoid a ring 39
21 avoid distorting 40
22 maintain the minimum bend radius of 40
FIG. 23 is not a separate pull wire 40
Figure 24 having a large (wide) surface of the cable clamp 41
Cable 25 has a curved protections gland 41
26 41 Spiral
27 Isolated cable line 43
28 mechanical and electrical ground connection and equipotential surface treatment 46
29 Use a soft bonding wires 46 within the movable metal pipe
Example 47 Figure 30 bus isolation
Insulator example of FIG. 31 DIN rail mounting 47
32 parallel RC shield ground 47
33 Direct shield grounding 48
Figure 34 Shielding Application Example 48
Example 1 48 35 shield grounding derived connection
36 shield grounding examples derived connection Figure 249
Figure 37 Installation Verification Procedure 50
38 50 Ground connection test
8 39 2 GB/T 15157.7 4-way connector and the IEC 60603 series to IEC 81076-2-101 connector pins
And distribution lines of 52
Figure 402 8-way modular connectors 53
41 transposition line pairs, split pairs and reverse line 53
42 confirmation process 54
Figure 43 Channel Diagram 55
44 permanent link 55 schematic
Communication network maintenance 61 45
46 Fault detection procedure 64
Figure 47 without special tools to detect faults 65
Figure B.1 MICE classification 67
Example 67 Neto B.2 factory MICE area
Figure B.3 improvement, isolation and separation 68
Figure B.4 Tuning Example 168
Figure B.5 mitigation measures Example 269
Figure B.6 common industrial equipment, electromagnetic interference frequency range 69
Figure B.7 example of the relationship between the value of distance and separation EFT 71
Figure E.1 four-wire supply network (TN-C) 82
Figure E.2 five-wire supply network (TN-S) 83
Figure H.1 straight harness connectors with D coding M12-4 89
D encoder M12-4 connector Figure H.2 cross belt harness 89
Figure H.3 straight harness with 8 modular connectors 90
Figure H.4 with 8-way modular connector cross line 91
Figure H.5 M12-4 to 8-way modular connector conversion 91
Figure H.6 M12-4 to 8-way modular connector cross line 92
Figure I.1 stripped cable sheath 93
Figure I.2 Examples of types of preparation A cable 94
Figure I.3 8-way modular plug 94
Figure I.4 the cable into the connector 94
Figure I.5 crimp connector 95
Figure I.6 Examples of types of preparation A cable 95
Figure I.7 connector member 96
Figure I.8 cable preparation 96
Connector Cable Gland Figure I.9 cable on the nut and the housing 96
Figure I.10 wire preparation 96
Figure I.11 jacket removed 97
Figure I.12 shield handle 97
Figure I.13 wire preparation 97
Figure I.14 connector wires installed 97
Figure I.15 connector assembly 98
Figure I.16 final assembly 98
Figure N.1 loop resistance measurement between the wire and the wire 105
Figure N.2 wire loop resistance measurement between 1 106 and the shield
Figure N.3 wire circuit resistance measurements between 2 and the shield 106
Figure N.4 resistance measurements for the detection of short-circuit wire 106
1 and FIG N.5 wire resistance measurement between two conductor 106
Confirm Figure N.6 cable DCR 107
Figure N.7 cable open or short conclusions 108
Figure N.8 determine the correct cable termination resistor value 109
Table 1 Basic characteristics of network-based non-symmetric Ethernet cable wiring 18
Table 2 is based on a symmetric cable wiring Ethernet basic networking features 19
Table 3 fiber optic cabling network features 19
Table 4 copper-related information. Fixed cable 21
Table 5 Copper infos. Cords 21
Table 6 Cable infos 22
Table 7 Ethernet-based CP symmetry cable wiring connector 24
Table 8 based on non-CP Ethernet copper cabling used to connect 24
Table 9 optical fiber connecting hardware 24
Table 10. The basic formula 25 Reference Implementation
Table 11 reference implementation of enhanced formula 26
Table 12 temperature exceeds 20 ℃ correction factor 27
Table 13 and other potential and ground wire size and length of 30
Table 14 bonding wire cross-section 31
Table 15 lap plate surface protection 31
Table 16 cable circuits and the minimum distance 36
Table 17 symmetrical cable parameters 38
Silicon cable parameters Table 18 38
Table 19 POF cable parameters 39
Table 20 hard clad silica optical fiber cable 39
Table 21 symmetrical cable routing network 62 Typical Problems
Table 22 Typical fiber optic cabling network problems 63
Example B.1 target MICE region Table 168
Example B.2 target MICE region Table 269
Table B.3 relationship electromagnetic interference generating device and "E" classification 70
Table B.4 each coupling mechanism jamming equipment 70
71 Table B.5 MICE definitions
Conventions Table D.1 Connector color codes used in the table 76
Table 77 Table D.2 Connector
Table F.1 Common wire sizes approximate conversion table 84
Table G.1 copper cabling verification checklist 85
Table G.2 grounding and bonding measurement checklist 86
Table G.3 is used to check the signature table G.1 and G.2 of Table 87
Table G.4 specifically check for non-Ethernet-based CP Checklist 87
Signature 87 Table G.5 G.4 checklist for the
Table G.6 fiber optic cabling verification checklist 88
Signature Table G.6 G.7 for checklist 88
Table H.1 D coding M12-4 pin/pair assignment line 89
Table H.2 M12 to M12 crossover cable pin/wire allocation 90
Table H.3 8-way modular connector pins/lines allocated 90
Table H.4 8-way modular pin crossover cable/wire allocation 91
Table H.5 connector pin assignments 91
Table H.6 M12 to 8-pin modular crossover cable/wire allocation 92
Table J.1 channel transmission connection when there are four or more requirements 99
Table M.1 CPF and CP trademark 104
Foreword
This standard is identical with IEC 61918.2007 "Industrial communication networks in industrial environments communications network installation" (in English), and according to
It comes with errata document IEC 61918.2007 (first edition) "Industrial communication networks in industrial environments communications network installation Errata"
Editing.
This standard is mainly made editorial changes as follows.
--- Remove IEC 61918 foreword, according to GB/T 1.1-2000 re-write the foreword;
--- According to GB/T 1.1-2000 editorial changes.
The standard proposed by China Machinery Industry Federation.
This standard by the national industrial process measurement and control Standardization Technical Committee (SAC/TC124) centralized.
This standard was drafted. Machinery Industrial Instrumentation Technology and Economy Institute.
The main drafters of this standard. Xiesu Fen, Pan Changqing, Ding Lu, Wang Linkun, Dan.
Introduction
Process automation and factory automation increasingly rely on communication networks and fieldbus, these communication networks and fieldbus itself is designed
In response to specific environmental conditions of the industrial environment. Network and Fieldbus provide workshop/factory several functional units effective application integration.
Thus, the upper management system integrated with on-site generation can reduce the cost of production data while maintaining or increasing the quality and quantity of production.
Correct network installation is to ensure the availability of communications and communication performance of an important prerequisite. This requires an appropriate place to consider important aspects of industrial automation
Surface, such as topology, weather conditions, vibration, chemical pollution, EMC (EMC), functional safety.
These specifications provide a communication network in the following standards.
ISO /IEC 24702 specifies the design of industrial environments common telecommunications facilities, and provides some of the standard transmission performance specifications
basis. ISO /IEC 24702 specifies only the original bandwidth of the channel; it does not require the use of a particular network of the useful data transmission channel
Rate, or the communication process is expected to consider the error after disturbance.
IEC 61158 fieldbus standard and its companion standard IEC 61784 (including the first 1-4 section and related sub-section) together provides for appropriate
For multiple industrial automation CP (communication profile). The CP provides the raw bandwidth capacity, and provides position modulation and Fieldbus
The line coding rule. Some profiles also provides a number of useful target level of error rate of data transfer, as well as the process of communication disturbance
Maximum.
The standard for industrial environments cabling (telecommunications facilities) to provide a consistent set of rules and fieldbus installation. Find a solution
One problem is. different parts of the large-scale automated sites are provided by different vendors, and these vendors having different structures and within
Yung different installation guide, which will lead to the risk of a communication system may not work properly.
The standards developed by unifying multiple user groups and industrial organizations approach.
The industry standard for the majority of properties in the most commonly used industrial communication network installation media provides a common reference. This standard covers the following
Section installed in the life cycle (see Figure 1 of this standard).
Chapter 4. installation design;
Chapter 5. Installation realized;
Chapter 6. Installing verification and acceptance testing of the installation;
Chapter 7. Installation Management;
Chapter 8. installation and maintenance and fault detection.
These chapters prepare the way of the method adopted is to give many skilled in the art to provide the installation guide.
Figure 1 Industrial Network Installation Lifecycle
For each of the communication system, the present standards and related installation profiles used in conjunction with the installation of these profiles provisions of the present standard of choice, fill
Charging and replacement.
About IEC 61784 series of standards defined communication profile family (CPF) communication profiles (CP), the related installation profiles, see IEC 61784-5-x
Series of standards, where x is the number CPFx. IEC /T R61158-1 describes the fieldbus and CP as well as related installation between profiles
Nature (see Figure 2).
For cabling installation, this standard and ISO /IEC 14763-2 (see Figure 2) together.
2 Standard Room diagram
Industrial communication networks
Industrial environment communications network installation
1 Scope
This standard specifies the basic requirements for network media communication in industrial environments and industrial automation field between the island and the island of installation. The standard
Including quasi-symmetrical wiring cable and fiber optic cabling, wiring devices and wireless media, but does not include wireless media itself. See other media
IEC 61784-5 series of standards.
This standard is a companion standard for industrial automation island communication networks, especially for the IEC 61158 series and the IEC 61784 series of standards
A predetermined communication network. In addition, the standard also includes.
--- ISO /IEC industrial environments telecommunications cabling installation 24702 stipulated;
--- 24702 connection specified in the particular wiring telecommunications cabling and automation island between ISO /IEC , in which an automated quote
The end (AO) instead of the ISO /IEC 24702 telecommunications terminals (TO).
NOTE. If you are using an interface AO does not comply with ISO /IEC 24702 interfaces provide for TO, then, despite the reservations of some characteristics of cabling (including sex
Energy), this wiring is no longer in line with ISO /IEC 24702.
This standard provides the key to solve the problem (topology, weather conditions, vibration, chemical pollution, EMC, functional safety of industrial automation, information
Safety, etc.) guidelines.
The standard designers, installers, verification and acceptance testing personnel, management and maintenance personnel assignments, the provisions of the respective responsibilities, and /
Or give guidance.
2 Normative references
The following documents contain provisions which, through reference in this standard and become the standard terms. For dated references, subsequent
Amendments (not including errata content) or revisions do not apply to this standard, however, encourage the parties to the agreement are based on research
Whether the latest versions of these documents. For undated reference documents, the latest versions apply to this standard.
GB 3836.15 Electrical apparatus for explosive gas atmospheres - Part 15. Electrical installations in hazardous locations (except coal mines)
(GB 3836.15-2000, eqv IEC 60079-14.1996)
GB/T 13534 logo color code (GB/T 13534-2009, IEC 60757. 1983, IDT)
GB/T 14048.10 voltage switchgear and control equipment Part 5-2. Control circuit devices and switching elements proximity switches
(GB/T 14048.10-2008, IEC 60947-5-2.2004, IDT)
GB/T 15157.7 Printed board connectors for frequencies below 3MHz Part 7. Assessment of quality with common mating features,
8-bit fixed and free connectors detailed specification (GB/T 15157.7-2002, IEC 60603-7.1996, IDT)
Part 2 GB/T 16657.2 Industrial communication networks - Fieldbus specifications. Physical layer specification and service definition
(GB/T 16657.2-2008, IEC 61158-2.2007, IDT)
GB/T 16895.1-2008 low-voltage electrical installations - Part 1. Fundamental principles, assessment of general characteristics and definitions (IEC 60364-1.
2005, IDT)
GB 16895.3 Electrical installations of buildings - Part 5-54. Selection and erection of electrical equipment - Earthing arrangements, protective conductors and Paul
Nursing bonding conductor (GB 16895.3-2004, IEC 60364-5-54.2002, IDT)
GB/T 18233-2008 Information technology generic customer premises cabling (IEC 11801.2002, IDT)
Between ISO /IEC 8802-3 Information technology - Telecommunications and information exchange between local area networks and metropolitan area networks Specific requirements Part 3
Score. with collision detection Carrier Sense Multiple Access (CSMA/CD) Access Method and Physical Layer Specifications
ISO /IEC 14763-1 Information technology for customer premises cabling implementation and operation - Part 1. Management
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