BS EN IEC 61968-1:2020
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Application integration at electric utilities. System interfaces for distribution management – Interface architecture and general recommendations
| Published By | Publication Date | Number of Pages |
| BSI | 2020 | 108 |
IEC 61968-1:2020 is the first in a series that, taken as a whole, defines interfaces for the major elements of an interface architecture for power system management and associated information exchange. This document identifies and establishes recommendations for standard interfaces based on an Interface Reference Model (IRM). Subsequent clauses of this document are based on each interface identified in the IRM. This set of standards is limited to the definition of interfaces. They provide for interoperability among different computer systems, platforms, and languages. IEC 61968-100 gives recommendations for methods and technologies to be used to implement functionality conforming to these interfaces. As used in IEC 61968, distribution management consists of various distributed application components for the utility to manage electrical distribution networks. These capabilities include monitoring and control of equipment for power delivery, management processes to ensure system reliability, voltage management, demand-side management, outage management, work management, network model management, facilities management, and metering. The IRM is specified in Clause 3. The IRM defines the high-level view of the TC 57 reference architecture and the detailed in the relevant 61968 series, 61970 series or 62325 series. The goal of the IRM is to provide a common relevant context view for TC 57 that covers domains like transmission, distribution, market, generation, consumer, regional reliability operators, and regulators. This third edition cancels and replaces the second edition published in 2012. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) update of IRM section, which has been out of date since the 2nd edition; b) update to IRM model using ArchiMate modelling language; c) addition of missing business functions and business objects; d) alignment with newly released documents from the technical committee; e) alignment with IEC 61968-100;f) update of annexes.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | undefined |
| 5 | Annex ZA(normative)Normative references to international publicationswith their corresponding European publications |
| 7 | English CONTENTS |
| 10 | FOREWORD |
| 12 | INTRODUCTION Figure 1 – High-level IEC IRM business functions |
| 13 | Figures |
| 14 | Tables Table 1 – Document overview for IEC 61968-1 |
| 15 | 1 Scope 2 Normative references |
| 16 | 3 Terms and definitions |
| 17 | 3.5 Abbreviated terms 4 Interface reference model 4.1 Domain |
| 18 | 4.2 Business functions 4.3 Interface reference model 4.3.1 General Figure 2 – Defined business function for Interface Reference Model (IRM) |
| 19 | 4.3.2 Asset Management (AM) |
| 21 | Figure 3 – Asset management business functions and business objects |
| 24 | 4.3.3 Customer Management (CM) |
| 25 | Figure 4 – Customer management business functions and business objects |
| 27 | 4.3.4 Emergency Simulation (ES) |
| 28 | Figure 5 – Emergency simulation training business functions and business objects |
| 30 | 4.3.5 End Device Operation (EDO) Figure 6 – End device operation business functions and business objects |
| 32 | 4.3.6 Engineering Design Management (EDM) |
| 34 | Figure 7 – Engineering design management business functions and business objects |
| 35 | Figure 8 – Break down of detail engineering and detail design |
| 39 | 4.3.7 Fault Management (FM) |
| 40 | Figure 9 – Fault management business functions and business objects |
| 42 | 4.3.8 Compliance Management (CO) Figure 10 – Compliance management business functions and business objects |
| 44 | 4.3.9 Market Operation (MO) |
| 45 | Figure 11 – Market operation business functions and business objects |
| 47 | 4.3.10 Market Settlement (MS) |
| 48 | Figure 12 – Market settlement business functions and business objects |
| 50 | 4.3.11 Network Model Management (NMM) |
| 51 | Figure 13 – Network model management business functions and business objects |
| 53 | 4.3.12 Network Operation (NO) |
| 54 | Figure 14 – Network operation business functions and business objects |
| 59 | 4.3.13 Predictive Operation Planning (POP) |
| 60 | Figure 15 – Predictive operation planning business functions and business objects |
| 64 | 4.3.14 Retail Market Operation (RMO) |
| 65 | Figure 16 – Retail market operation business functions and business objects |
| 66 | 4.3.15 System Development Planning (SDP) |
| 67 | Figure 17 – System development planning business functions and business objects |
| 69 | 4.3.16 Work Management (WM) |
| 70 | Figure 18 – Work management business functions and business objects |
| 73 | 4.3.17 External to IEC |
| 74 | Figure 19 – External to IEC business functions and business objects |
| 80 | 4.4 General 4.5 Requirements analysis methodology 5 Interface profile 5.1 General |
| 81 | 5.2 Business function Figure 20 – Overview of the interface profile and corresponding subclause numbers Figure 21 – Manage Work Business Process Example |
| 82 | 5.3 Application adapter Figure 22 – WorkRequest Data Object Example |
| 83 | 5.4 Interface specification 5.5 Middleware adapter Figure 23 – Application Process Sequence Diagram Example |
| 84 | 5.6 Middleware service |
| 85 | 5.7 Communication service 5.8 Platform environment 6 Information exchange model 6.1 General requirements |
| 86 | 6.2 Message structures 6.2.1 General 6.2.2 Compliance philosophy |
| 87 | 6.2.3 Extension 7 Component reporting and error handling 7.1 Component reporting |
| 88 | 7.2 Error message handling 8 Security and authentication |
| 89 | 9 Maintenance aspects |
| 90 | Annexes Annex A (informative) Use of IEC 61968 series of standards A.1 General A.2 Application of IEC 61968 series by a product vendor A.3 Application of IEC 61968 series by a utility |
| 91 | Figure A.1 – Process A: Application of IEC 61968 series by a utility |
| 92 | A.4 Establish interface architecture Figure A.2 – Process B: application of IEC 61968 series by a utility |
| 93 | A.5 Define generic use cases A.6 Message type verbs A.7 Development of CIM model extensions for distribution |
| 94 | Annex B (informative) Inter-application integration performance considerations Table B.1 – Typical load scenario |
| 95 | Annex C (informative) Views of data in a conventional electric utility C.1 General C.2 Classification |
| 96 | C.3 Identification Figure C.1 – Database views depend on the time and user |
| 98 | Annex D (informative) Relevant ArchiMate definitions for IRM D.1 General D.2 Business role Figure D.1 – Business role notation |
| 99 | D.3 Business function D.4 Business object Figure D.2 – Business function notation |
| 100 | D.5 Data object D.6 Composition relationship Figure D.3 – Business object notation Figure D.4 – Data object notation |
| 101 | D.7 Aggregation relationship D.8 Realization relationship D.9 Access relationship Figure D.5 – Composition notation Figure D.6 – Aggregation notation Figure D.7 – Realization notation |
| 102 | D.10 Specialization relationship Figure D.8 – Access notation Figure D.9 – Specialization notation Figure D.10 – Specialization |
| 103 | Annex E (informative) ED2 Interface profile mapping to ArchiMate E.1 ED2 Interface profile E.2 ArchiMate interface profile Figure E.1 – Overview of the interface profile in IEC 61968-1:2012 and corresponding subclause numbers |
| 104 | Figure E.2 – Simplified Mapping between the ArchiMate Language and the TOGAF ADM |
| 105 | E.3 Mapping between the 61968-1:2012 IRM and ArchiMate Used for ED3 Figure E.3 – Decomposition of the different layer to passive structure, behaviour and active structure |
| 107 | Bibliography |
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