Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base

IEC 61970-301:2013 deals with the common information model (CIM), an abstract model that represents all the major objects in an electric utility enterprise typically involved in utility operations. The object classes represented in the CIM are abstract in nature and may be used in a wide variety of applications. The use of the CIM goes far beyond its application in an EMS. This standard is to be understood as a tool to enable integration in any domain where a common power system model is needed to facilitate interoperability and plug compatibility between applications and systems independent of any particular implementation. Major changes from the third edition include the following:
- extensions have been added to support UCTE exchange;
- the transformer regulation model has been expanded to support phase shifting transformer models needed by ENTSO-E;
- zero and negative sequence impedance terms have been added;
- new StateVariables package has been added;
- additional classes have been added.

Interface de programmation d'application pour système de gestion d'énergie (EMS-API) - Partie 301: Base de modèle d'information commun (CIM)

La CEI 61970-301:2013 traite du modèle d'information commun (CIM), un modèle abstrait qui représente tous les objets principaux d'une entreprise de service public de distribution d'électricité habituellement impliqués dans les opérations de l'entreprise. Les classes d'objets représentées dans le CIM sont de nature abstraite et peuvent être utilisées dans une large gamme d'applications. L'utilisation du CIM n'est pas limitée à son application dans un EMS. Cette norme est destinée à être comprise comme un outil permettant l'intégration dans tout domaine où un modèle commun de réseau est nécessaire pour faciliter l'interopérabilité et la compatibilité de connexion entre des applications et des systèmes indépendants de toute mise en oeuvre particulière. Les principales modifications par rapport à la troisième édition sont les suivantes:
- extensions ajoutées pour prendre en charge l'échange UCTE;
- extension du modèle de régulation des transformateurs afin de prendre en charge les modèles de transformateurs de déphasage dont a besoin l'ENTSO-E;
- ajout des termes "impédance homopolaire" et "impédance inverse" aux endroits où ils étaient absents;
- ajout d'un nouveau paquetage StateVariables afin de prendre en charge l'échange de solutions de modèles de réseau à partir du calcul de répartition, de l'estimation d'état, etc.;
- ajout de classes complémentaires.

General Information

Status
Published
Publication Date
22-May-2013
ICS
33.200 - Telecontrol. Telemetering
Technical Committee
TC 57 - Power systems management and associated information exchange
Drafting Committee
WG 13 - TC 57/WG 13
Current Stage
DELPUB - Deleted Publication
Start Date
13-Dec-2013
Completion Date
26-Oct-2025

Relations

Revises
IEC 61970-301:2011 - Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base
Effective Date
05-Sep-2023
Revised
IEC 61970-301:2013 - Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base
Effective Date
05-Sep-2023

Overview

IEC 61970-301:2013 is an international standard published by the International Electrotechnical Commission (IEC) that defines the Common Information Model (CIM) base for Energy Management System Application Program Interfaces (EMS-API). This model offers an abstract and extensible framework representing all major objects in an electric utility enterprise involved in utility operations. It enables interoperability and plug compatibility across diverse applications and systems by establishing a consistent and universal power system model independent of specific implementations.

The latest 2013 edition expands on prior versions by incorporating enhancements such as support for UCTE exchange, advanced transformer regulation models for phase shifting transformers aligning with ENTSO-E requirements, and integration of zero and negative sequence impedance terms. The standard introduces a new StateVariables package along with additional classes to address evolving industry needs.

Key Topics

  • Common Information Model (CIM) Fundamentals
    The CIM provides an abstract representation of utility objects including equipment, topology, measurements, control devices, and operational limits. It uses UML-based modeling techniques to define classes, relationships, inheritance hierarchies, and aggregation necessary to represent the complexity of electric utilities.

  • Package Architecture
    The standard organizes the CIM into multiple packages such as Core, Topology, Wires, Generation, LoadModel, SCADA, Protection, ControlArea, and Contingency. Each package encapsulates domain-specific classes ensuring modularity and ease of extension.

  • Transformer and Regulation Modeling
    The transformer model is enhanced to support phase shifting transformers and regulating controls. This allows precise simulation of transformer behavior in power flow analysis and state estimation, critical for modern grid operations.

  • Measurement and Control Integration
    CIM defines representations for measurements, measurement quality, control functions, and monitoring devices, facilitating seamless integration with SCADA and real-time monitoring systems.

  • Modeling Guidelines and Change Management
    The standard includes comprehensive guidelines for maintaining and extending the CIM model, allowing implementers to adapt the model for specific operational requirements while ensuring consistency and interoperability.

Applications

IEC 61970-301:2013 serves as a foundational standard for utilities and system integrators to:

  • Enable Interoperability Across Power System Applications
    By providing a common semantic model, diverse software applications such as energy management systems (EMS), distribution management systems (DMS), outage management systems (OMS), and advanced distribution automation can share data seamlessly.

  • Support Integration of Smart Grid Technologies
    The extensible CIM framework allows utilities to incorporate modern assets and technologies including renewable integration, demand response, and grid-edge devices.

  • Facilitate Data Exchange and Model Synchronization
    Utilities can leverage this standard for the consistent exchange of network topology, equipment status, and operational limits between control centers and third-party applications.

  • Improve System Modeling and Simulation Accuracy
    Enhanced transformer and regulating control models support detailed dynamic analyses necessary for stability studies, contingency planning, and operational decision-making.

  • Standardize Asset and Network Representation
    The CIM base enables consistent naming conventions, containerization of equipment, and hierarchical representation of components essential for asset management and network planning.

Related Standards

IEC 61970-301:2013 forms a part of the broader IEC 61970 series focused on EMS application program interfaces and data models. It is closely related to:

  • IEC 61970-302 to IEC 61970-310 - These parts extend the CIM base with additional domain-specific models covering generation, load, topology, and other key areas.

  • IEC 61968 Series - Focused on distribution management and enterprise system integration, IEC 61968 complements IEC 61970 by addressing the integration between utility IT systems and operational systems.

  • CIM XML Schema Standards - Facilitate data exchange in XML format based on the CIM UML model defined in IEC 61970-301.

  • ENTSO-E Guidelines - The standard incorporates enhancements that align with ENTSO-E requirements for power system modeling and data exchange harmonization across European utilities.

Adopting IEC 61970-301:2013 helps utilities achieve cross-vendor compatibility, improve operational efficiency, and future-proof their system architectures with a robust and widely recognized common information model. This standard is essential for professionals involved in power system modeling, EMS development, utility IT integration, and smart grid initiatives.

IEC 61970-301:2013 - Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base Released:5/23/2013 - Page 1 previewIEC 61970-301:2013 - Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base Released:5/23/2013 - Page 2 previewIEC 61970-301:2013 - Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base Released:5/23/2013 - Page 3 previewIEC 61970-301:2013 - Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base Released:5/23/2013 - Page 4 preview
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IEC 61970-301:2013 - Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base Released:5/23/2013

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Frequently Asked Questions

IEC 61970-301:2013 is a standard published by the International Electrotechnical Commission (IEC). Its full title is "Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base". This standard covers: IEC 61970-301:2013 deals with the common information model (CIM), an abstract model that represents all the major objects in an electric utility enterprise typically involved in utility operations. The object classes represented in the CIM are abstract in nature and may be used in a wide variety of applications. The use of the CIM goes far beyond its application in an EMS. This standard is to be understood as a tool to enable integration in any domain where a common power system model is needed to facilitate interoperability and plug compatibility between applications and systems independent of any particular implementation. Major changes from the third edition include the following: - extensions have been added to support UCTE exchange; - the transformer regulation model has been expanded to support phase shifting transformer models needed by ENTSO-E; - zero and negative sequence impedance terms have been added; - new StateVariables package has been added; - additional classes have been added.

IEC 61970-301:2013 deals with the common information model (CIM), an abstract model that represents all the major objects in an electric utility enterprise typically involved in utility operations. The object classes represented in the CIM are abstract in nature and may be used in a wide variety of applications. The use of the CIM goes far beyond its application in an EMS. This standard is to be understood as a tool to enable integration in any domain where a common power system model is needed to facilitate interoperability and plug compatibility between applications and systems independent of any particular implementation. Major changes from the third edition include the following: - extensions have been added to support UCTE exchange; - the transformer regulation model has been expanded to support phase shifting transformer models needed by ENTSO-E; - zero and negative sequence impedance terms have been added; - new StateVariables package has been added; - additional classes have been added.

IEC 61970-301:2013 is classified under the following ICS (International Classification for Standards) categories: 33.200 - Telecontrol. Telemetering. The ICS classification helps identify the subject area and facilitates finding related standards.

IEC 61970-301:2013 has the following relationships with other standards: It is inter standard links to IEC 61970-301:2011, IEC 61970-301:2013. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.

You can purchase IEC 61970-301:2013 directly from iTeh Standards. The document is available in PDF format and is delivered instantly after payment. Add the standard to your cart and complete the secure checkout process. iTeh Standards is an authorized distributor of IEC standards.

Standards Content (Sample)


IEC 61970-301 ®
Edition 4.0 2013-05
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
colour
inside
Energy management system application program interface (EMS-API) –
Part 301: Common information model (CIM) base
Interface de programmation d'application pour système de gestion d'énergie
(EMS-API) –
Partie 301: Base de modèle d'information commun (CIM)
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IEC 61970-301 ®
Edition 4.0 2013-05
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
colour
inside
Energy management system application program interface (EMS-API) –
Part 301: Common information model (CIM) base
Interface de programmation d'application pour système de gestion d'énergie
(EMS-API) –
Partie 301: Base de modèle d'information commun (CIM)
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
PRICE CODE
INTERNATIONALE
XH
CODE PRIX
ICS 33.200 ISBN 978-2-83220-813-7
– 2 – 61970-301 © IEC:2013
CONTENTS
FOREW ORD . 18
INTRODUCTION . 20
1 Scope . 22
2 Normative references . 22
3 Terms and definitions . 23
4 CIM specification . 23
4.1 CIM modeling notation . 23
4.2 CIM packages . 23
4.3 CIM classes and relationships . 25
4.3.1 Classes . 25
4.3.2 Generalization . 26
4.3.3 Simple association . 27
4.3.4 Aggregation . 28
4.4 CIM model concepts and examples . 28
4.4.1 Concepts . 28
4.4.2 Containment, equipment hierarchies and naming . 28
4.4.3 Connectivity model . 31
4.4.4 Inheritance hierarchy . 34
4.4.5 Transformer model . 36
4.4.6 Regulating transformer modeling . 37
4.4.7 Measurements and controls . 40
4.4.8 Regulating control models . 44
4.5 Modeling guidelines. 44
4.5.1 Modeling for change . 44
4.5.2 Process for amendments to the CIM . 45
4.5.3 Changes to the CIM UML model . 45
4.5.4 Changes to the CIM standards documents . 45
4.5.5 CIM profiles . 45
4.6 Modeling tools . 46
4.7 User implementation conventions . 46
4.8 CIM modeling examples . 46
5 Detailed model . 47
5.1 Ov erv iew . 47
5.2 Context . 47
6 Package architecture . 49
6.1 Top package IEC61970 . 49
6.1.1 General . 49
6.1.2 IEC61970CIMVersion root class . 49
6.1.3 Package Domain . 50
6.1.4 Package Core . 69
6.1.5 Package OperationalLimits . 96
6.1.6 Package Topology . 103
6.1.7 Package Wires . 110
6.1.8 Package Generation . 174
6.1.9 Package LoadModel . 238
6.1.10 Package Outage . 251

61970-301 © IEC:2013 – 3 –
6.1.11 Package Protection . 256
6.1.12 Package Equivalents . 262
6.1.13 Package Meas . 267
6.1.14 Package SCADA . 291
6.1.15 Package ControlArea . 296
6.1.16 Package Contingency . 302
6.1.17 Package StateVariables . 305
Bibliography . 310
Figure 1 – CIM IEC 61970-301 package diagram . 25
Figure 2 – Example of generalization . 27
Figure 3 – Example of simple association . 28
Figure 4 – Example of aggregation . 28
Figure 5 – Equipment containers . 30
Figure 6 – Connectivity model . 31
Figure 7 – Simple network example . 33
Figure 8 – Simple network connectivity modeled with CIM Topology . 33
Figure 9 – Equipment inheritance hierarchy. 35
Figure 10 – Transformer model . 37
Figure 11 – Symmetrical Phase Shifter . 38
Figure 12 – Asymmetrical Phase Shifter. 39
Figure 13 – Navigating from PSR to MeasurementValue . 41
Figure 14 – Measurement placement . 43
Figure 15 – Regulating control models . 44
Figure 16 – CIM top level packages . 47
Figure 17 – Logical diagram IEC61970::Main . 49
Figure 18 – Logical diagram Domain::CombinedDatatypes . 50
Figure 19 – Logical diagram Domain::BasicDatatypes . 51
Figure 20 – Logical diagram Domain::ElectricityDatatypes . 51
Figure 21 – Logical diagram Domain::EnumeratedUnitDatatypes . 52
Figure 22 – Logical diagram Domain::GeneralDatatypes . 53
Figure 23 – Logical diagram Domain::MonetaryDatatypes . 54
Figure 24 – Logical diagram Domain::TimeDatatypes . 54
Figure 25 – Logical diagram Core::Reporting . 69
Figure 26 – Logical diagram Core::Main . 70
Figure 27 – Logical diagram Core::CurveSchedule . 71
Figure 28 – Logical diagram Core::Datatypes . 71
Figure 29 – Logical diagram Core::DocumentationExampleAggregation . 72
Figure 30 – Logical diagram Core::DocumentationExampleAssociation . 72
Figure 31 – Logical diagram Core::Ownership . 73
Figure 32 – Logical diagram OperationalLimits::OperationalLimits . 96
Figure 33 – Logical diagram OperationalLimits::BranchGroup . 97
Figure 34 – Logical diagram Topology::TopologicalNodeTerminal . 104
Figure 35 – Logical diagram Topology::Topology . 105

– 4 – 61970-301 © IEC:2013
Figure 36 – Logical diagram Topology::TopologyMeasRelations . 106
Figure 37 – Logical diagram Topology::TopologyReporting . 107
Figure 38 – Logical diagram Topology::Main . 108
Figure 39 – Logical diagram Wires::DocumentationExampleInheritance . 111
Figure 40 – Logical diagram Wires::MutualCoupling . 112
Figure 41 – Logical diagram Wires::Schedules . 113
Figure 42 – Logical diagram Wires::Datatypes . 114
Figure 43 – Logical diagram Wires::InheritanceHierarchy. 115
Figure 44 – Logical diagram Wires::LineModel. 116
Figure 45 – Logical diagram Wires::NamingHierarchyPart1 . 117
Figure 46 – Logical diagram Wires::NamingHierarchyPart2 . 118
Figure 47 – Logical diagram Wires::RegulatingEquipment . 119
Figure 48 – Logical diagram Wires::TransformerModel . 120
Figure 49 – Logical diagram Wires::VoltageControl . 121
Figure 50 – Logical diagram Generation::Main . 175
Figure 51 – Logical diagram GenerationDynamics::Main . 175
Figure 52 – Logical diagram GenerationDynamics::Datatypes . 176
Figure 53 – Logical diagram Production::Nuclear . 192
Figure 54 – Logical diagram Production::Main . 193
Figure 55 – Logical diagram Production::Datatypes . 194
Figure 56 – Logical diagram Production::Hydro . 195
Figure 57 – Logical diagram Production::Thermal . 196
Figure 58 – Logical diagram LoadModel::Main . 238
Figure 59 – Logical diagram LoadModel::Datatypes . 239
Figure 60 – Logical diagram Outage::Datatypes . 251
Figure 61 – Logical diagram Outage::Main . 252
Figure 62 – Logical diagram Protection::Main . 256
Figure 63 – Logical diagram Equivalents::Main . 262
Figure 64 – Logical diagram Meas::Datatypes . 268
Figure 65 – Logical diagram Meas::Meas . 268
Figure 66 – Logical diagram Meas::Control . 269
Figure 67 – Logical diagram Meas::InheritanceStructure . 270
Figure 68 – Logical diagram Meas::Measurement with limits . 271
Figure 69 – Logical diagram Meas::Quality . 272
Figure 70 – Logical diagram SCADA::Datatypes . 292
Figure 71 – Logical diagram SCADA::Main . 292
Figure 72 – Logical diagram ControlArea::ControlArea . 297
Figure 73 – Logical diagram ControlArea::ControlAreaInheritance . 298
Figure 74 – Logical diagram ControlArea::Datatypes . 298
Figure 75 – Logical diagram Contingency::Contingency . 302
Figure 76 – Logical diagram StateVariables::StateVariables . 305
Table 1 – MeasurementType naming conventions . 42

61970-301 © IEC:2013 – 5 –
Table 2 – MeasurementValueSource naming conventions . 43
Table 3 – Attributes . 47
Table 4 – Association ends . 48
Table 5 – Enums . 48
Table 6 – Attributes of IEC61970::IEC61970CIMVersion . 50
Table 7 – Attributes of Domain::AbsoluteDate. 54
Table 8 – Attributes of Domain::AbsoluteDateTime . 55
Table 9 – Attributes of Domain::ActivePower . 55
Table 10 – Attributes of Domain::ActivePowerChangeRate . 55
Table 11 – Attributes of Domain::Admittance . 56
Table 12 – Attributes of Domain::AngleDegrees . 56
Table 13 – Attributes of Domain::AngleRadians . 56
Table 14 – Attributes of Domain::ApparentPower . 56
Table 15 – Attributes of Domain::Capacitance . 57
Table 16 – Attributes of Domain::Conductance . 57
Table 17 – Attributes of Domain::CostPerEnergyUnit. 57
Table 18 – Attributes of Domain::CostRate . 58
Table 19 – Literals of Domain::Currency . 58
Table 20 – Attributes of Domain::CurrentFlow. 58
Table 21 – Attributes of Domain::Damping . 59
Table 22 – Attributes of Domain::FloatQuantity . 59
Table 23 – Attributes of Domain::Frequency . 59
Table 24 – Attributes of Domain::Hours. 60
Table 25 – Attributes of Domain::Impedance . 60
Table 26 – Attributes of Domain::Inductance . 60
Table 27 – Attributes of Domain::IntegerQuantity . 60
Table 28 – Attributes of Domain::KWActivePower . 61
Table 29 – Attributes of Domain::Length . 61
Table 30 – Attributes of Domain::Minutes . 61
Table 31 – Literals of Domain::MonetaryAmountPerEnergyUnit . 62
Table 32 – Literals of Domain::MonetaryAmountPerHeatUnit . 62
Table 33 – Literals of Domain::MonetaryAmountRate . 62
Table 34 – Attributes of Domain::Money. 62
Table 35 – Attributes of Domain::PerCent . 63
Table 36 – Attributes of Domain::Pressure . 63
Table 37 – Attributes of Domain::PU . 63
Table 38 – Attributes of Domain::Reactance . 63
Table 39 – Attributes of Domain::ReactivePower . 64
Table 40 – Attributes of Domain::RealEnergy . 64
Table 41 – Attributes of Domain::Resistance . 64
Table 42 – Attributes of Domain::RotationSpeed . 65
Table 43 – Attributes of Domain::Seconds . 65
Table 44 – Attributes of Domain::StringQuantity. 65

– 6 – 61970-301 © IEC:2013
Table 45 – Attributes of Domain::Susceptance. 66
Table 46 – Attributes of Domain::Temperature . 66
Table 47 – Literals of Domain::UnitMultiplier . 66
Table 48 – Literals of Domain::UnitSymbol . 67
Table 49 – Attributes of Domain::Voltage . 68
Table 50 – Attributes of Domain::VoltagePerReactivePower. 68
Table 51 – Attributes of Domain::Volume . 68
Table 52 – Attributes of Domain::WaterLevel . 68
Table 53 – Attributes of Domain::Weight . 69
Table 54 – Attributes of Core::ReportingGroup . 73
Table 55 – Association ends of Core::ReportingGroup with other classes . 74
Table 56 – Attributes of Core::ReportingSuperGroup . 74
Table 57 – Association ends of Core::ReportingSuperGroup with other classes . 74
Table 58 – Attributes of Core::BasePower . 74
Table 59 – Attributes of Core::BaseVoltage . 75
Table 60 – Association ends of Core::BaseVoltage with other classes. 75
Table 61 – Attributes of Core::BasicIntervalSchedule . 76
Table 62 – Attributes of Core::Bay . 76
Table 63 – Association ends of Core::Bay with other classes . 77
Table 64 – Literals of Core::BreakerConfiguration . 77
Table 65 – Literals of Core::BusbarConfiguration . 77
Table 66 – Literals of Core::CompanyType . 78
Table 67 – Attributes of Core::ConductingEquipment. 78
Table 68 – Association ends of Core::ConductingEquipment with other classes . 78
Table 69 – Attributes of Core::ConnectivityNode . 79
Table 70 – Association ends of Core::ConnectivityNode with other classes . 79
Table 71 – Attributes of Core::ConnectivityNodeContainer . 80
Table 72 – Association ends of Core::ConnectivityNodeContainer with other classes. 80
Table 73 – Attributes of Core::Curve. 80
Table 74 – Association ends of Core::Curve with other classes . 81
Table 75 – Attributes of Core::CurveData . 81
Table 76 – Association ends of Core::CurveData with other classes . 81
Table 77 – Literals of Core::CurveStyle. 82
Table 78 – Attributes of Core::Equipment . 82
Table 79 – Association ends of Core::Equipment with other classes . 82
Table 80 – Attributes of Core::EquipmentContainer . 83
Table 81 – Association ends of Core::EquipmentContainer with other classes . 83
Table 82 – Attributes of Core::GeographicalRegion . 84
Table 83 – Association ends of Core::GeographicalRegion with other classes . 84
Table 84 – Attributes of Core::IdentifiedObject . 84
Table 85 – Attributes of Core::IrregularIntervalSchedule . 85
Table 86 – Association ends of Core::IrregularIntervalSchedule with other classes . 85
Table 87 – Attributes of Core::IrregularTimePoint . 86

61970-301 © IEC:2013 – 7 –
Table 88 – Association ends of Core::IrregularTimePoint with other classes . 86
Table 89 – Attributes of Core::OperatingParticipant. 86
Table 90 – Association ends of Core::OperatingParticipant with other classes . 86
Table 91 – Attributes of Core::OperatingShare . 87
Table 92 – Association ends of Core::OperatingShare with other classes . 87
Table 93 – Literals of Core::PhaseCode . 87
Table 94 – Attributes of Core::PowerSystemResource . 88
Table 95 – Association ends of Core::PowerSystemResource with other classes . 88
Table 96 – Attributes of Core::PsrList . 89
Table 97 – Association ends of Core::PsrList with other classes . 89
Table 98 – Attributes of Core::PSRType. 89
Table 99 – Association ends of Core::PSRType with other classes . 89
Table 100 – Attributes of Core::RegularIntervalSchedule . 90
Table 101 – Association ends of Core::RegularIntervalSchedule with other classes . 90
Table 102 – Attributes of Core::RegularTimePoint . 91
Table 103 – Association ends of Core::RegularTimePoint with other classes . 91
Table 104 – Attributes of Core::SubGeographicalRegion . 91
Table 105 – Association ends of Core::SubGeographicalRegion with other classes . 91
Table 106 – Attributes of Core::Substation . 92
Table 107 – Association ends of Core::Substation with other classes . 92
Table 108 – Attributes of Core::Terminal . 93
Table 109 – Association ends of Core::Terminal with other classes . 93
Table 110 – Attributes of Core::Unit. 94
Table 111 – Association ends of Core::Unit with other classes . 95
Table 112 – Attributes of Core::VoltageLevel . 95
Table 113 – Association ends of Core::VoltageLevel with other classes . 95
Table 114 – Literals of OperationalLimits::OperationalLimitDirectionKind . 97
Table 115 – Attributes of OperationalLimits::OperationalLimitType . 98
Table 116 – Association ends of OperationalLimits::OperationalLimitType with other
classes . 98
Table 117 – Attributes of OperationalLimits::ActivePowerLimit . 98
Table 118 – Association ends of OperationalLimits::ActivePowerLimit with other
classes . 99
Table 119 – Attributes of OperationalLimits::ApparentPowerLimit . 99
Table 120 – Association ends of OperationalLimits::ApparentPowerLimit with other
classes . 99
Table 121 – Attributes of OperationalLimits::BranchGroup . 100
Table 122 – Association ends of OperationalLimits::BranchGroup with other classes . 100
Table 123 – Attributes of OperationalLimits::BranchGroupTerminal. 100
Table 124 – Association ends of OperationalLimits::BranchGroupTerminal with other
classes . 100
Table 125 – Attributes of OperationalLimits::CurrentLimit . 101
Table 126 – Association ends of OperationalLimits::CurrentLimit with other classes . 101
Table 127 – Attributes of OperationalLimits::OperationalLimit . 101

– 8 – 61970-301 © IEC:2013
Table 128 – Association ends of OperationalLimits::OperationalLimit with other classes . 102
Table 129 – Attributes of OperationalLimits::OperationalLimitSet . 102
Table 130 – Association ends of OperationalLimits::OperationalLimitSet with other
classes . 102
Table 131 – Attributes of OperationalLimits::VoltageLimit . 103
Table 132 – Association ends of OperationalLimits::VoltageLimit with other classes . 103
Table 133 – Attributes of Topology::BusNameMarker . 109
Table 134 – Association ends of Topology::BusNameMarker with other classes . 109
Table 135 – Attributes of Topology::TopologicalNode . 109
Table 136 – Association ends of Topology::TopologicalNode with other classes. 110
Table 137 – Attributes of Wires::ImpedanceVariationCurve . 121
Table 138 – Association ends of Wires::ImpedanceVariationCurve with other classes. 122
Table 139 – Attributes of Wires::PhaseVariationCurve . 122
Table 140 – Association ends of Wires::PhaseVariationCurve with other classes . 123
Table 141 – Attributes of Wires::RatioVariationCurve . 123
Table 142 – Association ends of Wires::RatioVariationCurve with other classes . 123
Table 143 – Literals of Wires::RegulatingControlModeKind . 124
Table 144 – Attributes of Wires::SwitchSchedule . 124
Table 145 – Association ends of Wires::SwitchSchedule with other classes . 125
Table 146 – Attributes of Wires::ACLineSegment . 125
Table 147 – Association ends of Wires::ACLineSegment with other classes . 126
Table 148 – Attributes of Wires::Breaker . 126
Table 149 – Association ends of Wires::Breaker with other classes . 127
Table 150 – Attributes of Wires::BusbarSection . 127
Table 151 – Association ends of Wires::BusbarSection with other classes . 128
Table 152 – Attributes of Wires::CompositeSwitch . 129
Table 153 – Association ends of Wires::CompositeSwitch with other classes . 129
Table 154 – Attributes of Wires::CompositeSwitchType . 129
Table 155 – Attributes of Wires::Conductor . 130
Table 156 – Association ends of Wires::Conductor with other classes . 130
Table 157 – Attributes of Wires::Connector . 131
Table 158 – Association ends of Wires::Connector with other classes . 131
Table 159 – Literals of Wires::CoolantType . 132
Table 160 – Attributes of Wires::DCLineSegment . 132
Table 161 – Association ends of Wires::DCLineSegment with other classes . 132
Table 162 – Attributes of Wires::Disconnector . 133
Table 163 – Association ends of Wires::Disconnector with other classes . 133
Table 164 – Attributes of Wires::EnergyConsumer . 134
Table 165 – Association ends of Wires::EnergyConsumer with other classes . 135
Table 166 – Attributes of Wires::EnergySource . 135
Table 167 – Association ends of Wires::EnergySource with other classes . 136
Table 168 – Attributes of Wires::FrequencyConverter . 136
Table 169 – Association ends of Wires::FrequencyConverter with other classes . 137

61970-301 © IEC:2013 – 9 –
Table 170 – Attributes of Wires::Fuse . 138
Table 171 – Association ends of Wires::Fuse with other classes. 138
Table 172 – Attributes of Wires::Ground . 139
Table 173 – Association ends of Wires::Ground with other classes . 139
Table 174 – Attributes of Wires::GroundDisconnector . 140
Table 175 – Association ends of Wires::GroundDisconnector with other classes . 140
Table 176 – Attributes of Wires::HeatExchanger . 141
Table 177 – Association ends of Wires::HeatExchanger with other classes . 141
Table 178 – Attributes of Wires::Jumper . 141
Table 179 – Association ends of Wires::Jumper with other classes . 142
Table 180 – Attributes of Wires::Junction . 143
Table 181 – Association ends of Wires::Junction with other classes . 143
Table 182 – Attributes of Wires::Line . 144
Table 183 – Association ends of Wires::Line with other classes. 144
Table 184 – Attributes of Wires::LoadBreakSwitch . 144
Table 185 – Association ends of Wires::LoadBreakSwitch with other classes . 145
Table 186 – Attributes of Wires::MutualCoupling . 146
Table 187 – Association ends of Wires::MutualCoupling with other classes . 146
Table 188 – Attributes of Wires::OperatingMode . 147
Table 189 – Attributes of Wires::PhaseTapChanger . 147
Table 190 – Association ends of Wires::PhaseTapChanger with other classes . 148
Table 191 – Literals of Wires::PhaseTapChangerKind . 149
Table 192 – Attributes of Wires::Plant . 149
Table 193 – Association ends of Wires::Plant with other classes . 149
Table 194 – Attributes of Wires::PowerTransformer . 150
Table 195 – Association ends of Wires::PowerTransformer with other classes . 150
Table 196 – Attributes of Wires::ProtectedSwitch . 151
Table 197 – Association ends of Wires::ProtectedSwitch with other classes . 151
Table 198 – Attributes of Wires::RatioTapChanger . 152
Table 199 – Association ends of Wires::RatioTapChanger with other classes . 152
Table 200 – Attributes of Wires::ReactiveCapabilityCurve . 153
Table 201 – Association ends of Wires::ReactiveCapabilityCurve with other classes . 154
Table 202 – Attributes of Wires::RectifierInverter . 154
Table 203 – Association ends of Wires::RectifierInverter with other classes . 155
Table 204 – Attributes of Wires::RegulatingCondEq . 155
Table 205 – Association ends of Wires::RegulatingCondEq with other classes . 156
Table 206 – Attributes of Wires::RegulatingControl . 156
Table 207 – Association ends of Wires::RegulatingControl with other classes . 157
Table 208 – Attributes of Wires::RegulationSchedule . 157
Table 209 – Association ends of Wires::RegulationSchedule with other classes . 158
Table 210 – Attributes of Wires::Resistor . 158
Table 211 – Association ends of Wires::Resistor with other classes . 159
Table 212 – Attributes of Wires::SeriesCompensator . 159

– 10 – 61970-301 © IEC:2013
Table 213 – Association ends of Wires::SeriesCompensator with other classes . 160
Table 214 – Attributes of Wires::ShuntCompensator . 160
Table 215 – Association ends of Wires::ShuntCompensator with other classes . 161
Table 216 – Attributes of Wires::StaticVarCompensator . 162
Table 217 – Association ends of Wires::StaticVarCompensator with other classes . 163
Table 218 – Literals of Wires::SVCControlMode . 163
Table 219 – Attributes of Wires::Switch.
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