BS EN IEC 61158-1:2019 – TC:2020 Edition
$280.87
Tracked Changes. Industrial communication networks. Fieldbus specifications – Overview and guidance for the IEC 61158 and IEC 61784 series
| Published By | Publication Date | Number of Pages |
| BSI | 2020 | 173 |
IEC 61158-1:2019 (E) specifies the generic concept of fieldbuses. This document presents an overview and guidance for the IEC 61158 series explaining the structure and content of the IEC 61158 series, relating the structure of the IEC 61158 series to the ISO/IEC 7498-1 OSI Basic Reference Model and showing how to use parts of the IEC 61158 series in combination with the IEC 61784 series. It also provides explanations of some aspects of the IEC 61158 series that are common to the type specific parts of the IEC 61158 5 including the application layer service description concepts and the generic fieldbus data types.
This second edition cancels and replaces the first edition published in 2014. This edition constitutes a technical revision. This edition includes the following significant changes with respect to the previous edition: • updates of the references to and information about the IEC 61158 series, IEC 61784 1, IEC 61784 3, IEC 61784-5 series and IEC 61918 throughout the document; • new Type 25 and the related profile family CPF 20; • new Type 26 and the related profile family CPF 21.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 1 | compares BS EN IEC 61158-1:2019 |
| 2 | TRACKED CHANGES Text example 1 — indicates added text (in green) |
| 3 | TRACKED CHANGES Text example 1 — indicates added text (in green) |
| 89 | undefined |
| 96 | CONTENTS |
| 100 | FOREWORD |
| 102 | 1 Scope 2 Normative references 3 Terms, definitions and abbreviated terms 3.1 Terms and definitions |
| 103 | 3.2 Abbreviations 4 Guidelines for implementers and users 4.1 Background and purpose |
| 104 | 4.2 Supported options 4.3 Benefits from using a common and formal style |
| 105 | 5 Concept of the IEC 61158 series Figures Figure 1 – Example of a fieldbus system |
| 106 | Figure 2 – Concept of DL/AL to separate service and protocol parts |
| 107 | 6 Mapping onto the OSI Basic Reference Model 6.1 Overview Figure 3 – Basic fieldbus reference model Tables Table 1 – OSI and IEC 61158 layers |
| 108 | 6.2 Physical layer service and protocol 6.3 Data-link layer service Figure 4 – General model of physical layer |
| 109 | 6.4 Data-link layer protocol 6.5 Application layer service Figure 5 – Relationship of the Data-link layerto other fieldbus layers and to users of the fieldbus data-link service |
| 110 | 6.6 Application layer protocol Figure 6 – Relationship of the fieldbus Application layerto other fieldbus layers and to users of the fieldbus application service |
| 111 | 7 Structure of IEC 61158 and IEC 61784 series 7.1 The IEC 61158 physical layer 7.2 The IEC 61158 data-link layer |
| 112 | 7.3 The IEC 61158 application layer 7.4 IEC 617841 and IEC 617842 fieldbus profiles |
| 113 | Figure 7 – Structure of communication profile families |
| 114 | Figure 8 – Example of a CPF structure |
| 115 | Table 2 – CPF, CP, and type relations |
| 116 | 7.5 IEC 617843 functional safety communication profiles 7.5.1 General 7.5.2 General concepts and technology-specific profiles |
| 118 | 7.5.3 Assessment Guideline 7.6 IEC 617845 installation profiles |
| 120 | 7.7 Communication profiles for wireless communication networks Figure 9 – Document structure of IEC 61918 and the CPF specific part of IEC 617845 |
| 121 | 8 Brief summary of the characteristics of service and protocol for each fieldbus type 8.1 Summary of the physical layer service and protocol characteristics 8.1.1 Type 1: media 8.1.2 Type 2: Coaxial wire and optical media 8.1.3 Type 3: Twisted-pair wire and optical media |
| 122 | 8.1.4 Type 4: Wire medium 8.1.5 Type 5: Wire and optical media 8.1.6 Type 6: Void 8.1.7 Type 7: Wire and optical media 8.1.8 Type 8: Twisted-pair wire and optical media 8.1.9 Type 9: Wire and optical media 8.1.10 Type 10: Wire, optical media and wireless 8.1.11 Type 11: Wire and optical media 8.1.12 Type 12: Wire and optical media 8.1.13 Type 13: Wire and optical media 8.1.14 Type 14: Wire and optical media |
| 123 | 8.1.15 Type 15: Wire and optical media 8.1.16 Type 16: Optical media 8.1.17 Type 17: Wire and optical media 8.1.18 Type 18: Media 8.1.19 Type 19: Wire and optical media 8.1.20 Type 20 8.1.21 Type 21: Wire and optical media 8.1.22 Type 22: Wire and optical media 8.1.23 Type 23: Wire and optical media 8.1.24 Type 24: Twisted-pair wire media 8.1.25 Type 25: 8.1.26 Type 26: Wire and optical media |
| 124 | 8.2 Summary of data-link layer service characteristics |
| 125 | 8.3 Summary of data-link layer protocol characteristics |
| 127 | 8.4 Summary of application layer service characteristics |
| 128 | 8.5 Summary of application layer protocol characteristics |
| 131 | 9 Application layer service description concepts 9.1 Overview 9.2 Architectural relationships 9.2.1 Relationship to the application layer of the OSI Basic Reference Model |
| 132 | 9.2.2 Relationships to other fieldbus entities Figure 10 – Relationship to the OSI Basic Reference Model Figure 11 – Architectural positioning of the fieldbus application layer |
| 133 | 9.3 Fieldbus application layer structure 9.3.1 Overview |
| 134 | 9.3.2 Fundamental concepts 9.3.3 Fieldbus application processes |
| 135 | Figure 12 – Client/server interactions |
| 136 | Figure 13 – Pull model interactions |
| 137 | Figure 14 – Push model interactions Table 3 – Types of timeliness defined for publisher/subscriber interactions |
| 138 | 9.3.4 Application process objects Figure 15 – APOs services conveyed by the FAL |
| 140 | 9.3.5 Application entities 9.3.6 Fieldbus application service elements Figure 16 – Application entity structure |
| 142 | Figure 17 – Example FAL ASEs Figure 18 – FAL management of objects |
| 143 | Figure 19 – ASE service conveyance |
| 144 | 9.3.7 Application relationships |
| 146 | 9.4 Fieldbus application layer naming and addressing 9.4.1 General 9.4.2 Identifying objects accessed through the FAL Figure 20 – Defined and established AREPs |
| 147 | 9.4.3 Addressing APs accessed through the FAL 9.5 Architecture summary Figure 21 – FAL architectural components |
| 148 | 9.6 Notional FAL service procedures 9.6.1 Notional FAL confirmed service procedures 9.6.2 Notional FAL unconfirmed service procedures |
| 149 | 9.7 Common FAL attributes 9.8 Common FAL service parameters |
| 150 | 9.9 APDU size 10 Data type ASE 10.1 Overview 10.1.1 General |
| 151 | 10.1.2 Overview of basic types Figure 22 – Data-type class hierarchy example |
| 152 | 10.1.3 Overview of fixed-length types 10.1.4 Overview of constructed types 10.1.5 Specification of user-defined data types 10.1.6 Transfer of user data |
| 153 | 10.2 Formal definition of data type objects 10.2.1 Data type class |
| 154 | 11 Fieldbus system requirements 11.1 General |
| 155 | 11.2 Industrial control network 11.3 Communication between industrial control networks and other networks 11.4 Quality of service features of an industrial control network 11.4.1 General |
| 156 | 11.4.2 Control data transfer mechanisms |
| 157 | 11.5 Special requirements for wireless networks |
| 158 | Annex A (informative)Trade name declarations Table A.1 – Trade names of CPFs and CPs |
| 161 | Annex B (informative)Media selection for fieldbus systems B.1 General B.2 Cabled media B.3 Wireless media B.4 Media needing special consideration B.5 Performance characteristics of open and public networks B.5.1 Public network types |
| 162 | B.5.2 Performance characteristics of public networks |
| 163 | Bibliography |
