BS EN 61970-452:2017
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Energy management system application program interface (EMS-API) – CIM static transmission network model profiles
| Published By | Publication Date | Number of Pages |
| BSI | 2017 | 180 |
IEC 61970-452:2017 defines the subset of classes, class attributes, and roles from the CIM necessary to execute state estimation and power flow applications. This standard is intended for two distinct audiences, data producers and data recipients, and may be read from two perspectives. From the standpoint of model export software used by a data producer, the document describes a minimum subset of CIM classes, attributes, and associations which must be present in an XML formatted data file for model exchange. This new edition includes the following significant technical changes with respect to the previous edition: the Equipment profile has been split into three separate profiles, CoreEquipment, Operation and ShortCircuit; the HVDC model has been replaced with the new model defined in Edition 6 of 61970?301.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 2 | National foreword |
| 7 | English CONTENTS |
| 9 | FOREWORD |
| 11 | INTRODUCTION |
| 12 | 1 Scope |
| 13 | 2 Normative references 3 Terms and definitions 4 Overview of data requirements 4.1 Overview |
| 14 | 4.2 General requirements 4.3 Transformer modeling |
| 15 | Figures Figure 1 – Two winding transformer impedance Figure 2 – Three winding transformer impedance |
| 16 | 4.4 Modeling authorities 4.5 Use of measurement classes 4.5.1 General |
| 17 | 4.5.2 ICCP data exchange 4.6 Voltage or active power regulation Tables Table 1 – Valid measurementTypes |
| 18 | 4.7 Use of curves 4.7.1 General 4.7.2 Generating unit reactive power limits 4.8 Definition of schedules 5 CIM Static Transmission Network Model Profiles 5.1 CIM Static Transmission Network Model Profiles General |
| 19 | 5.2 Core Equipment Profile 5.2.1 Concrete Classes Table 2 – Profiles defined in this document |
| 71 | 5.2.2 Abstract Classes |
| 88 | 5.2.3 Enumerations |
| 93 | 5.2.4 Datatypes |
| 97 | 5.3 Operation Profile 5.3.1 Concrete Classes |
| 118 | 5.3.2 Abstract Classes |
| 127 | 5.3.3 Enumerations |
| 130 | 5.3.4 Datatypes |
| 131 | 5.4 Short Circuit Profile 5.4.1 Concrete Classes |
| 153 | 5.4.2 Abstract Classes |
| 159 | 5.4.3 Enumerations 5.4.4 Datatypes |
| 162 | 6 Amplifications and conventions 6.1 Overview 6.2 XML file validity 6.3 Normative string tables |
| 163 | 6.4 Roles and multiplicity Table 3 – Valid attribute values |
| 164 | Annex A (informative)Model exchange use cases A.1 General A.2 Regional security coordinators operating as peers Figure A.1 – Security coordinators |
| 165 | Figure A.2 – CIM model exchange |
| 166 | A.3 Hierarchical modeling Figure A.3 – Revised CIM model exchange |
| 167 | Figure A.4 – Hierarchical modeling |
| 169 | Annex B (informative)Modeling authorities B.1 General B.2 The ModelingAuthority Class and ModelingAuthoritySets B.3 Full Model Exchange B.4 Benefits of this approach |
| 171 | Annex C (informative)Boundary definition |
| 172 | Annex D (informative)Multiple profile processing |
| 173 | Annex E (informative)Common power system model (CPSM) minimum data requirements E.1 Overview E.2 Scope of the ENTSO-E Common Grid Model Exchange (CGMES) specification |
| 174 | E.3 Glossary of the ENTSO-E Common Grid Model Exchange (CGMES) specification |
| 175 | E.4 Recommended data model exchange attributes |
| 177 | Figure E.1 – Example model configuration |
| 179 | Bibliography |
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IEC 61970-452:2017
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