BS EN 61968-1:2013
$198.66
Application integration at electric utilities. System interfaces for distribution management – Interface architecture and general recommendations
| Published By | Publication Date | Number of Pages |
| BSI | 2013 | 70 |
This Part of IEC 61968 series, is the first in a series that, taken as a whole, define interfaces for the major elements of an interface architecture for distribution management.
This International Standard identifies and establishes recommendations for standard interfaces based on an Interface Reference Model (IRM). Subsequent clauses of this standard 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. Methods and technologies used to implement functionality conforming to these interfaces are recommended in IEC 61968-100.
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, automated mapping, facilities management, and metering. The IRM is specified in Clause 3.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 6 | English CONTENTS |
| 8 | INTRODUCTION |
| 9 | Figure 1 – Distribution management with IEC 61968 compliant interface architecture |
| 11 | Figure 2 – Example utility implementation of IEC 61968 |
| 12 | Table 1 – Document overview for IEC 61968-1 |
| 13 | 1 Scope 2 Normative references 3 Interface reference model 3.1 Domain |
| 14 | 3.2 Business functions |
| 15 | 3.3 Interface reference model Figure 3 – Typical functions mapped to interface reference model |
| 17 | Table 2 – The Interface Reference Model (IRM) |
| 41 | 4 Integration infrastructure recommendations 4.1 General 4.2 Requirements analysis methodology 5 Interface profile 5.1 General |
| 42 | 5.2 Abstract components Figure 4 – Overview of the interface profile and corresponding subclause numbers |
| 43 | 5.3 Component adapters 5.4 Interface specification 5.5 Middleware adapter |
| 44 | 5.6 Middleware services 5.7 Communication services 5.8 Platform environment 6 Information exchange model 6.1 General requirements |
| 45 | 6.2 Message structures 6.2.1 General recommendation |
| 46 | 6.2.2 Message header 6.2.3 Message type payload Figure 5 – Logical view of an IEC 61968 message |
| 47 | Figure 6 – Example of a message type payload |
| 48 | 6.2.4 Explanation of associations Figure 7 – Example of how message elements are derived from the CIM Figure 8 – Navigating associations in CIM (UML notation) |
| 49 | 6.2.5 Compliance philosophy 6.2.6 Extension 6.2.7 Request message Figure 9 – Navigating associations in message type schemas Figure 10 – Logical view of a request message |
| 50 | 6.2.8 Response message 6.2.9 Event message 6.2.10 Fault message Figure 11 – Logical view of a response message Figure 12 – Logical view of an event message |
| 51 | 6.2.11 Signature element 7 Component reporting and error handling (informative) 7.1 Component reporting 7.2 Error message handling Figure 13 – Logical view of a fault message |
| 52 | 8 Security and authentication (informative) 9 Maintenance aspects (informative) |
| 53 | Annex A (informative) Use of IEC 61968 series of standards |
| 54 | Figure A.1 – Process A: Application of IEC 61968 series by a utility |
| 55 | Figure A.2 – Process B: application of IEC 61968 series by a utility |
| 57 | Table A.1 – Use case template |
| 60 | Table A.2 – Commonly used verbs |
| 63 | Annex B (informative) Inter-application integration performance considerations Table B.1 – Typical load scenario |
| 64 | Annex C (informative) Views of data in a conventional electric utility |
| 65 | Figure C.1 – Database views depend on the time and user |
| 67 | Bibliography |
