BS EN IEC 61968-3:2021

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Application integration at electric utilities. System interfaces for distribution management – Interface for network operations

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BSI	2021	378

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Description

IEC 61968-3:2021 provides utilities with the means to supervise main substation topology (breaker and switch state), feeder topology and control equipment status through SCADA, AMI and other data sources. It also provides the means for handling network connectivity and loading conditions. Finally, it makes it possible for utilities to locate customer telephone complaints and coordinate activities of field crews with respect to planned and unplanned outages. IEC 61968-3 specifies the information content of a set of message payloads that can be used to support many of the business functions related to network operations. Typical uses of the message payloads defined in IEC 61968-3 include data acquisition by external systems, fault isolation, fault restoration, trouble management and coordination of the real-time state of the network. The scope illustrates the possibility of implementing IEC 61968-3 functionality as either a single integrated advanced distribution management system or as a set of separate functions – OMS, DMS and SCADA. Utilities may choose to buy these systems from different vendors and integrate them using the IEC 61968-3 messages. Alternatively, a single vendor could provide two or all of these components as a single integrated system. In the case of more than one system being provided by the same vendor, the vendor may choose to use either extensions of the IEC 61968 messages or a proprietary integration mechanism to provide enhanced functionality over and above what is required/supported by the IEC 61968-3 specification. While this is a possible implementation, Subclause 4.3 defines the scope in terms of business functions that are implemented in common vendor offerings. Annexes in this document detail integration scenarios or use cases, which are informative examples showing typical ways of using the message payloads defined in this document as well as message payloads to be defined in other parts of the IEC 61968 series This third edition cancels and replaces the second edition published in 2017. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: a) major rework of Switch Order related profiles and Outage related profiles; b) documented profiles in more detail as a result of the analysis of end-to-end use cases; c) separated Measurement and Control profile into two profiles: PSRMeasurements and PSRControls; d) replaced Temporary Network Change profile with SwitchingEvents profile; e) added MeasurementAction, ControlAction, GenericAction and VerificationAction to SwitchingPlans profile. Added examples; f) added SwitchingActions profile to support the coordination of SwitchingPlan execution between control room and the field crew; g) added ClampAction to SwitchingPlan, SwitchingAction and SwitchingEvent profiles, to allow clamps to be placed and removed independently of jumpers; h) separated OutagesAndFaults profile into UnplannedOutages, PlannedOutages, EquipmentFaults, LineFaults; i) added list of energized and de-energized UsagePoints to the UnplannedOutages profile; j) added PlannedOutages profile; k) added PlannedOutageNotifications profile; l) added SwitchingPlanRequest profile to replace OutageSchedules profile; m) expanded TroubleOrders profile to include UnplannedOutages and TroubleTickets and to allow crews to be scheduled to individual tasks within the TroubleOrder; n) expanded use cases and sequence diagrams; o) sequence diagrams updated to use IEC 61968-100 message patterns; p) use cases in IEC 62559-2 use case template; q) added example XML for profiles; r) replaced xsd in Annex with tables to document the profiles in a serialisation-independent form; s) clarified FLISR use case to include interactions between DSO and TSO per review comments from Edition 2. t) removed OperationalTags since it is now part of the TagAction in the SwitchingEvents payload

PDF Catalog

PDF Pages	PDF Title
2	undefined
5	Annex ZA(normative)Normative references to international publicationswith their corresponding European publications
7	English CONTENTS
24	FOREWORD
27	INTRODUCTION
28	1 Scope
29	2 Normative references Figures Figure 1 – IEC 61968-3 Scope
30	3 Terms, definitions and abbreviated terms 3.1 Terms and definitions 3.2 Abbreviated terms 4 Reference and information models 4.1 General approach to network operations
31	4.2 Reference model Figure 2 – IEC 61968-3 Reference model
32	4.3 Interface reference model 4.4 Network operations business functions and sub-business functions
33	Tables Table 1 – Business functions and sub-business functions
34	4.5 Static information model 4.5.1 General 4.5.2 Classes for network operations
35	Table 2 – Classes for network operations
37	4.5.3 Classes related to network operations Table 3 – Classes related to network operations
39	5 Network operations message payloads 5.1 General
40	5.2 Summary of IEC 61968-3 message profiles Table 4 – Summary of IEC 61968-3 message profiles
41	5.3 Config Profiles 5.3.1 General
42	Figure 3 – Example of a Push Message Exchange
43	5.3.2 Message payloads Figure 4 – Example of a Pull Message Exchange
44	5.3.3 AssetConfig payload
45	Table 5 – AssetConfig Profile
48	Figure 5 – AssetConfig payload (1)
49	5.3.4 FaultCauseTypeConfig payload 5.3.5 LocationConfig payload Figure 6 – AssetConfig payload (2) Figure 7 – FaultCauseTypeConfig payload
50	5.3.6 PowerSystemResourceConfig payload Figure 8 – LocationConfig payload Figure 9 – PowerSystemResourceConfig payload
51	5.3.7 OperationsDataLinkageConfig payload
52	Figure 10 – OperationsDataLinkageConfig payload (1)
53	5.3.8 Example – linking a Customer to a PowerSystemResource Figure 11 – OperationsDataLinkageConfig payload (2)
55	5.4 PSRMeasurements payload 5.4.1 General
56	Figure 12 – PSRMeasurements sequence diagram Figure 13 – Get/Reply Message Pattern for PSRMeasurements
57	5.4.2 Message Payload 5.4.3 PSRMeasurements Payload – Accumulator Table 6 – PSRMeasurements Profile
58	5.4.4 PSRMeasurements Payload – Analog Figure 14 – PSRMeasurements payload – Accumulator
59	Figure 15 – PSRMeasurements payload – Analog
60	5.4.5 PSRMeasurements Payload – Discrete Table 7 – Valid values for DiscreteValue.value
61	Figure 16 – PSRMeasurements payload – Discrete
62	5.4.6 PSRMeasurements Payload – StringMeasurement 5.4.7 GetPSRMeasurements payload Figure 17 – PSRMeasurements payload – StringMeasurement
63	Figure 18 – GetPSRMeasurements payload Table 8 – getPSRMeasurements Profile
64	5.5 PSRControls payload 5.5.1 General Figure 19 – PSRControls sequence diagram
65	5.5.2 PSRControls Message Payload
66	Table 9 – PSRControls Profile
70	5.5.3 PSRControls payload – AccumulatorReset 5.5.4 PSRControls payload – AnalogControl Figure 20 – PSRControls payload – AccumulatorReset
71	5.5.5 PSRControls payload – Command Figure 21 – PSRControls payload – AnalogControl
72	Figure 22 – PSRControls payload – Command
73	5.5.6 PSRControls payload – RaiseLowerCommand Figure 23 – PSRControls payload RaiseLowerCommand
74	5.5.7 PSRControls payload – SetPoint Figure 24 – PSRControls payload SetPoint
75	5.6 SwitchingPlanRequests payload 5.6.1 General
76	5.6.2 Message Payload Figure 25 – SwitchingPlanRequests Sequence Diagram
77	Table 10 – SwitchingPlanRequests Profile
78	Figure 26 – SwitchingPlanRequests payload (Part 1)
79	5.6.3 Example XML Figure 27 – SwitchingPlanRequests payload (Part 2)
80	5.7 SwitchingPlan Definition and Execution
81	5.8 SwitchingPlans payload 5.8.1 General Table 11 – Messages used to coordinate different types of SwitchingSteps
82	5.8.2 Message payload Figure 28 – SwitchingPlans sequence diagram
83	Table 12 – SwitchingPlans Profile
85	Figure 29 – SwitchingPlans message payload top level
86	5.8.3 SwitchingPlans payload – SwitchingStepGroups fragment Figure 30 – SwitchingPlans message – SafetyDocuments payload fragment
87	5.8.4 SwitchingPlans payload – SwitchingStep fragment Figure 31 – SwitchingPlans message payload – SwitchingStepGroups Table 13 – SwitchingPlans – SwitchingStepGroups payload fragment
88	Table 14 – SwitchingPlans – SwitchingStep payload fragment
89	5.8.5 Specifying Order of Step Execution Figure 32 – SwitchingStep actions
90	Table 15 – Example of Switching Step Execution Order
91	5.8.6 SwitchingPlans payload – ClampAction Figure 33 – SwitchingStepGroup and SwitchingStep Execution Order
92	5.8.7 SwitchingPlans payload – ClearanceAction Figure 34 – SwitchingPlans – ClampAction Table 16 – ClampAction payload fragment for SwitchingPlans
93	Table 17 – ClearanceAction payload fragment for SwitchingPlans
94	5.8.8 SwitchingPlans Payload – ControlAction Figure 35 – SwitchingPlans – ClearanceAction
95	Table 18 – ControlAction payload fragment for SwitchingPlans
96	5.8.9 SwitchingPlans Payload – CutAction Figure 36 – SwitchingPlans – ControlAction
97	5.8.10 SwitchingPlans payload – EnergyConsumerAction Figure 37 – SwitchingPlans – CutAction Table 19 – CutAction payload fragment for SwitchingPlans
98	Table 20 – EnergyConsumerAction payload fragment for SwitchingPlans
99	5.8.11 SwitchingPlans payload – EnergySourceAction Figure 38 – SwitchingPlans – EnergyConsumerAction
100	Table 21 – EnergySourceAction payload fragment for SwitchingPlans
101	5.8.12 SwitchingPlans payload – GenericAction Figure 39 – SwitchingPlans – EnergySourceAction
102	Table 22 – GenericAction payload fragment for SwitchingPlans
103	5.8.13 SwitchingPlans payload – GroundAction Figure 40 – SwitchingPlans – GenericAction
104	Table 23 – GroundAction payload fragment for SwitchingPlans
105	Figure 41 – SwitchingPlans – GroundAction Figure 42 – SwitchingPlans – GroundAction – Ground
106	Figure 43 – ACLineSegment choice for connecting ground Figure 44 – Clamp choice for connecting ground Figure 45 – ConductingEquipment choice for connecting ground
107	5.8.14 SwitchingPlans payload – JumperAction Table 24 – JumperAction payload fragment for SwitchingPlans
108	Figure 46 – SwitchingPlans – JumperAction
109	5.8.15 SwitchingPlans payload – MeasurementAction Figure 47 – SwitchingPlans – Jumper payload fragment
110	Figure 48 – SwitchingPlans – MeasurementAction Table 25 – MeasurementAction payload fragment for SwitchingPlans
111	5.8.16 SwitchingPlans payload – ShuntCompensatorAction Figure 49 – Execution of a SwitchingStep with a MeasurementActionand the quantity is telemetered
112	Figure 50 – SwitchingPlans – ShuntCompensatorAction Table 26 – ShuntCompensatorAction payload fragment for SwitchingPlans
113	5.8.17 SwitchingPlans payload – SwitchAction Table 27 – SwitchAction payload fragment for SwitchingPlans
114	5.8.18 SwitchingPlans payload – TagAction Figure 51 – SwitchingPlans – SwitchAction
115	Figure 52 – SwitchingPlans – TagAction payload Table 28 – TagAction payload fragment for SwitchingPlans
116	5.8.19 SwitchingPlans payload – VerificationAction Figure 53 – SwitchingPlans – OperationalTag payload fragment Table 29 – VerificationAction payload fragment for SwitchingPlans
117	5.8.20 Example SwitchingPlan Figure 54 – SwitchingPlans – VerificationAction payload
118	Table 30 – Example of a switching plan
120	5.8.21 Example XML for a complete SwitchingPlan Figure 55 – Sample XML for SwitchingPlans
122	5.9 SwitchingOrders payload 5.9.1 General
123	5.9.2 Message payload Figure 56 – SwitchingOrders sequence diagram
124	Table 31 – SwitchingOrders Profile
125	Figure 57 – SwitchingOrders message payload
126	5.9.3 Example XML Figure 58 – SwitchingOrders – Location fragment
127	5.10 SwitchingActions payload 5.10.1 General
128	5.10.2 Message Payload Figure 59 – Sequence Diagram of Switching Step Execution
129	5.10.3 SwitchingActions payload – SwitchingStep fragment Figure 60 – SwitchingActions top level payload Table 32 – SwitchingActions Profile
130	5.10.4 SwitchingActions payload – SwitchingStepGroups fragment Figure 61 – SwitchingActions – SwitchingPlan fragment Table 33 – SwitchingStep payload fragment for SwitchingActions
131	5.10.5 SwitchingActions payload – SwitchingPlan fragment 5.10.6 SwitchingActions payload – ClampAction Table 34 – SwitchingStepGroup payload fragment for SwitchingActions Table 35 – SwitchingPlan payload fragment for SwitchingActions
132	5.10.7 SwitchingActions payload – ClearanceAction Figure 62 – SwitchingAction – ClampAction fragment Table 36 – ClampAction payload fragment for SwitchingActions
133	Table 37 – ClearanceAction payload fragment for SwitchingActions
134	5.10.8 SwitchingActions payload – ControlAction Figure 63 – SwitchingActions – ClearanceAction fragment Table 38 – ControlAction payload fragment
135	5.10.9 SwitchingActions Payload – CutAction Figure 64 – SwitchingActions – ControlAction fragment
136	5.10.10 SwitchingActions payload – EnergyConsumerAction Figure 65 – SwitchingActions – CutAction fragment Table 39 – CutAction payload fragment for SwitchingActions
137	Figure 66 – SwitchingActions – EnergyConsumerAction fragment Table 40 – EnergyConsumerAction payload fragment for SwitchingActions
138	5.10.11 SwitchingActions payload – EnergySourceAction Figure 67 – SwitchingActions – EnergySourceAction fragment Table 41 – EnergySourceAction payload fragment for SwitchingActions
139	5.10.12 SwitchingActions payload – GenericAction Table 42 – GenericAction payload fragment for SwitchingActions
140	5.10.13 SwitchingActions payload – GroundAction Figure 68 – SwitchingActions – GenericAction fragment Table 43 – GroundAction payload fragment for SwitchingActions
141	5.10.14 SwitchingActions payload – JumperAction Figure 69 – SwitchingActions – GroundAction fragment
142	Table 44 – JumperAction payload fragment for SwitchingActions
143	5.10.15 SwitchingActions payload – MeasurementAction Figure 70 – SwitchingActions – JumperAction fragment
144	Figure 71 – SwitchingActions – MeasurementAction fragment Table 45 – MeasurementAction payload fragment for SwitchingActions
145	5.10.16 SwitchingActions payload – ShuntCompensatorAction Figure 72 – SwitchingActions – ShuntCompensatorAction fragment Table 46 – ShuntCompensatorAction payload fragment for SwitchingActions
146	5.10.17 SwitchingActions payload – SwitchAction Figure 73 – SwitchingActions – SwitchAction fragment Table 47 – SwitchAction payload fragment for SwitchingActions
147	5.10.18 SwitchingActions payload – TagAction Figure 74 – SwitchingActions – TagAction fragment Table 48 – TagAction payload fragment for SwitchingActions
148	5.10.19 SwitchingActions payload – VerificationAction Table 49 – VerificationAction payload fragment for SwitchingActions
149	Figure 75 – SwitchingActions – VerificationAction fragment
150	5.10.20 Example XML 5.11 SwitchingEvents payload 5.11.1 General
151	5.11.2 Message payload Figure 76 – SwitchingEvents sequence diagram for a notification
152	Table 50 – SwitchingEvents Profile
153	5.11.3 SwitchingEvents payload – ClampAction 5.11.4 SwitchingEvents payload – ClearanceAction Figure 77 – SwitchingEvents top level payload
154	5.11.5 SwitchingEvents payload – ControlAction 5.11.6 SwitchingEvents Payload – CutAction 5.11.7 SwitchingEvents payload – EnergyConsumerAction 5.11.8 SwitchingEvents payload – EnergySourceAction 5.11.9 SwitchingEvents payload – GenericAction 5.11.10 SwitchingEvents payload – GroundAction 5.11.11 SwitchingEvents payload – JumperAction 5.11.12 SwitchingEvents payload – MeasurementAction 5.11.13 SwitchingEvents payload – ShuntCompensatorAction 5.11.14 SwitchingEvents payload – SwitchAction 5.11.15 SwitchingEvents payload – TagAction
155	5.11.16 SwitchingEvents payload – VerificationAction 5.11.17 Example XML 5.12 PlannedOutageNotification payload 5.12.1 General
156	Figure 78 – PlannedOutageNotifications sequence diagram
157	5.12.2 Message payload Figure 79 – change PlannedOutageNotifications sequence diagram Table 51 – PlannedOutageNotifications Profile
158	5.12.3 Example XML Figure 80 – PlannedOutageNotifications message payload
159	5.13 PlannedOutages payload 5.13.1 General
160	5.13.2 Message payload Figure 81 – PlannedOutages – sequence diagram
161	Table 52 – PlannedOutages Profile
163	Figure 82 – PlannedOutages message payload
164	5.13.3 Example XML 5.14 TroubleTickets payload
165	5.15 Incidents payload 5.15.1 General Figure 83 – TroubleTickets sequence diagram
166	Figure 84 – Sequence diagram showing lifecycle of Incident
167	5.15.2 Message payload Figure 85 – Sequence diagram showing association of Incident with UnplannedOutage
168	Table 53 – Incidents Profile
169	5.15.3 Example XML Figure 86 – Incident message payload
170	5.16 EquipmentFaults payload 5.16.1 General
171	Figure 87 – Association of LineFaults/EquipmentFaults to UnplannedOutage
172	5.16.2 Message payload Figure 88 – EquipmentFaults sequence diagram
173	Table 54 – EquipmentFaults payload
174	Figure 89 – EquipmentFaults message payload
175	5.17 LineFaults payload 5.17.1 General 5.17.2 Message payload Figure 90 – LineFaults sequence diagram
176	Table 55 – LineFaults payload
177	Figure 91 – LineFaults message payload
178	5.18 UnplannedOutages payload 5.18.1 General Figure 92 – UnplannedOutages sequence diagram
179	5.18.2 Message payload
180	Table 56 – UnplannedOutages Profile
183	Figure 93 – UnplannedOutages message payload top level
184	Figure 94 – UnplannedOutages message payload, LineFault detail
185	5.18.3 Example XML Figure 95 – UnplannedOutages message payload, EquipmentFault detail Table 57 – Priority of statusKind when multiple crews assigned
187	5.19 Metering message payloads 5.19.1 EndDeviceEvents
188	Figure 96 – EndDeviceEvents
189	5.20 Work message payloads 5.20.1 WorkRequests payload Figure 97 – MeterReadings sequence diagram
190	5.21.1 General Figure 98 – WorkRequests sequence diagram
191	5.21.2 Message payload Figure 99 – TroubleOrders
192	Table 58 – TroubleOrders Profile
193	Figure 100 – TroubleOrders top level message payload Figure 101 – TroubleOrders – Incident payload fragment
194	Figure 102 – TroubleOrders – UnplannedOutage payload fragment
195	Figure 103 – Distinction between outage location and fault location Table 59 – Additional outage location information
196	Figure 104 – TroubleOrders, UnplannedOutage, EquipmentFault payload fragment
197	Figure 105 – TroubleOrders, UnplannedOutage, LineFault payload fragment Figure 106 – TroubleOrders, UnplannedOutage – actualPeriod payload fragment
198	Figure 107 – TroubleOrders – TroubleTicket payload fragment
199	Table 60 – TroubleTicket attributes
200	Table 61 – WorkTask attributes
202	Figure 108 – TroubleOrders – WorkTask payload fragment (1)
203	Figure 109 – TroubleOrders – WorkTask payload fragment (2)
204	Figure 110 – TroubleOrders – WorkTask WorkActivityRecords payload fragment Figure 111 – TroubleOrders – WorkTask, WorkActivityRecords, Assets payload
205	5.21.3 Example XML for an Incident TroubleOrder
206	6 Document Conventions 6.1 Message payload definitions 6.1.1 General
207	6.1.2 Mandatory versus Optional 6.2 Synchronous versus Asynchronous Messages 6.3 Message exchanges 6.3.1 General
208	Annex A (informative)Use cases A.1 General A.2 FLISR for SCADA-detected outage, SCADA switching A.2.1 Description of the use case
210	A.2.2 Use case diagrams
211	A.2.3 Technical details
212	A.2.4 Step by step analysis of use case
214	A.2.5 Information exchanged A.2.6 Common terms and definitions A.3 FLISR for trouble call and AMI outage, crew switching A.3.1 Description of the use case
216	A.3.2 Use case diagrams
217	A.3.3 Technical details
218	A.3.4 Step by step analysis of use case
222	A.3.5 Information exchanged A.3.6 Common terms and definitions A.4 Planned outage for maintenance – Manual process
224	A.5 Planned outage for maintenance A.5.1 General Figure A.1 – Planned outage for maintenance – Manual process
225	A.5.2 Description of the use case
226	A.5.3 Use case diagrams
227	A.5.4 Technical details
228	A.5.5 Step by step analysis of use case
230	Figure A.2 – SwitchingPlan creation
232	Figure A.3 – SwitchingOrder changes
235	A.5.6 Information exchanged A.5.7 Common terms and definitions Figure A.4 – SwitchingPlan execution
236	A.6 TroubleTicket creation A.6.1 Description of the use case A.6.2 Use case diagrams
237	A.6.3 Technical details
238	A.6.4 Step by step analysis of use case
241	A.6.5 Information exchanged A.6.6 Common terms and definitions A.7 CIS and OMS interactions during an unplanned outage A.7.1 General A.7.2 Description of the use case
242	A.7.3 Use case diagrams
243	A.7.4 Technical details Figure A.5 – UnplannedOutages overview
245	A.7.5 Step by step analysis of use case
247	Figure A.6 – UnplannedOutage creation
249	Figure A.7 – UnplannedOutages update
250	Figure A.8 – Outages being combined
251	Figure A.9 – Outage being split
252	A.7.6 Information exchanged A.7.7 Common terms and definitions A.8 Car hits pole but there is no outage A.8.1 Description of the use case Figure A.10 – UnplannedOutage restore
254	A.8.2 Use case diagrams
255	A.8.3 Technical details
256	A.8.4 Step by step analysis of use case
259	A.8.5 Information exchanged A.8.6 Common terms and definitions A.9 Car hits pole and there is an outage A.9.1 Description of the use case
261	A.9.2 Use case diagrams
262	A.9.3 Technical details
263	A.9.4 Further Information to the use case for classification / mapping A.9.5 Step by step analysis of use case
267	A.9.6 Information exchanged A.9.7 Common terms and definitions
268	Annex B (normative)Payload fragments B.1 General B.2 Accumulator fragment Table B.1 – IdentifiedObject
269	Table B.2 – Accumulator payload fragment
270	B.3 AccumulatorValue Fragment B.4 ACLineSegment fragment Table B.3 – AccumulatorValue payload fragment
271	Figure B.1 – ACLineSegment payload fragment Table B.4 – ACLineSegment payload fragment
272	B.5 ActivityRecord fragment B.6 Analog fragment Table B.5 – ActivityRecord payload fragment
273	Table B.6 – Analog payload fragment
274	B.7 AnalogValue fragment B.8 Approver fragment Table B.7 – AnalogValue payload fragment
275	B.9 Asset fragment Figure B.2 – Approver payload fragment Table B.8 – Approver payload fragment
276	Table B.9 – Asset payload fragment
277	B.10 AssetContainer fragment B.11 AssetInfo fragment B.12 AssetOwner fragment Table B.10 – AssetContainer payload fragment Table B.11 – AssetInfo payload fragment
278	B.13 Author fragment B.14 Cabinet fragment Figure B.3 – Author payload fragment Table B.12 – AssetOwner payload fragment Table B.13 – Author payload fragment
279	B.15 Clamp fragment Table B.14 – Cabinet payload fragment Table B.15 – Clamp payload fragment
280	B.16 Clearance fragment Table B.16 – Clearance payload fragment
281	B.17 ConductingEquipment fragment B.18 Cut fragment Table B.17 – ConductingEquipment payload fragment attributes
282	B.19 ConfigurationEvent fragment Table B.18 – Cut payload fragment
283	B.20 ConnectivityNode fragment Figure B.4 – ConfigurationEvent payload fragment Table B.19 – ConfigurationEvent payload fragment
284	B.21 CoordinateSystem fragment B.22 Crew fragment Table B.20 – ConnectivityNode payload fragment Table B.21 – CoordinateSystem payload fragment
285	Figure B.5 – Crew payload fragment Table B.22 – Crew payload fragment
286	B.23 CrewMember fragment B.24 CrewType fragment B.25 Customer fragment Table B.23 – CrewMember payload fragment Table B.24 – CrewType payload fragment
287	B.26 CustomerAgreement fragment Figure B.6 – Customer payload fragment Table B.25 – Customer payload fragment
288	B.27 DeEnergizedUsagePoint fragment Figure B.7 – CustomerAgreement payload fragment Table B.26 – CustomerAgreement payload fragment
289	B.28 Discrete fragment Figure B.8 – DeEnergizedUsagePoint payload fragment
290	Table B.27 – Discrete payload fragment
291	B.29 DiscreteValue fragment B.30 DuctBank fragment Table B.28 – DiscreteValue payload fragment
292	B.31 Editor fragment Figure B.9 – Editor payload fragment Table B.29 – DuctBank payload fragment
293	B.32 ElectronicAddress fragment Figure B.10 – ElectronicAddress payload fragment Table B.30 – Editor payload fragment Table B.31 – ElectronicAddress payload fragment
294	B.33 EndDevice fragment B.34 EnergyConsumer fragment Table B.32 – EndDevice payload fragment Table B.33 – EnergyConsumer payload fragment
295	B.35 EnergySource fragment Figure B.11 – EnergyConsumer payload fragment Table B.34 – EnergySource payload fragment
296	Figure B.12 – EnergySource payload fragment
297	B.36 EnergizedUsagePoint fragment B.37 Equipment fragment Figure B.13 – EnergizedUsagePoint payload fragment
298	B.38 EstimatedRestorationTime fragment B.39 FaultImpedance fragment Table B.35 – Equipment payload fragment Table B.36 – EstimatedRestorationTime payload fragment Table B.37 – FaultImpedance payload fragment
299	B.40 FaultCauseTypes fragment B.41 Feeder fragment B.42 FieldSafetySupervisor fragment Table B.38 – FaultCodeTypes payload fragment Table B.39 – Feeder payload fragment
300	B.43 FieldDispatchHistory fragment Figure B.14 – FieldSafetySupervisor payload fragment Figure B.15 – FieldDispatchHistory payload fragment Table B.40 – FieldSafetySupervisor payload fragment
301	B.44 Ground fragment B.45 FieldDispatchStep fragment Table B.41 – FieldDispatchHistory payload fragment Table B.42 – Ground payload fragment Table B.43 – FieldDispatchStep payload fragment
302	B.46 Hazard fragment B.47 Issuer fragment Figure B.16 – Hazard payload fragment Table B.44 – Hazard payload fragment
303	B.48 IssuedBySupervisor fragment Figure B.17 – Issuer payload fragment Figure B.18 – IssuedBySupervisor payload fragment Table B.45 – Issuer payload fragment
304	B.49 IssuedToSupervisor fragment B.50 lifecycleDate fragment Figure B.19 – IssuedToSupervisor payload fragment Figure B.20 – lifecycleDate fragment
305	B.51 Jumper fragment Table B.46 – lifecycleDate payload fragment Table B.47 – Jumper payload fragment
306	B.52 Location fragment Figure B.21 – Location payload fragment
308	Table B.48 – Location payload fragment
309	B.53 Manufacturer fragment B.54 MeasurementValueQuality fragment Figure B.22 – Manufacturer fragment Table B.49 – Manufacturer payload fragment
310	Figure B.23 – MeasurementValueQuality payload fragment
311	Table B.50 – MeasurementValueQuality payload fragment
312	B.55 MeasurementValueSource fragment B.56 Name fragment Figure B.24 – MeasurementValueSource payload fragment Figure B.25 – Name payload fragment Table B.51 – MeasurementValueSource payload fragment
313	B.57 NameType fragment B.58 NameTypeAuthority fragment B.59 OperationalTag fragment Table B.52 – Name payload fragment Table B.53 – NameType payload fragment Table B.54 – NameTypeAuthority payload fragment
314	B.60 Operator fragment Table B.55 – OperationalTag payload fragment
315	B.61 OperationsSafetySupervisor fragment Figure B.26 – Operator payload fragment Figure B.27 – OperationsSafetySupervisor payload fragment Table B.56 – Operator payload fragment
316	B.62 Organisation fragment Figure B.28 – Organisation payload fragment Table B.57 – OperationsSafetySupervisor payload fragment
317	B.63 OutageIsolationEquipment fragment Figure B.29 – OutageIsolationEquipment payload fragment Table B.58 – Organisation payload fragment
318	B.64 OwnerShip fragment B.65 Person fragment Figure B.30 – Ownerships payload fragment Table B.59 – OwnerShip payload fragment
319	Figure B.31 – Person payload fragment
320	B.66 Pole fragment Table B.60 – Person payload fragment
321	B.67 PositionPoint fragment Table B.61 – Pole payload fragment
322	B.68 PowerSystemResource fragment Table B.62 – PositionPoint payload fragment
323	Figure B.32 – PowerSystemResource fragment Table B.63 – PowerSystemResource payload fragment
324	B.69 Priority fragment B.70 ProductAssetModel fragment Table B.64 – Priority payload fragment
325	Figure B.33 – ProductAssetModel fragment Table B.65 – ProductAssetModel payload fragment
326	B.71 PSRType fragment B.72 ReleasedBySupervisor fragment B.73 ReleasedToSupervisor fragment Figure B.34 – ReleasedBySupervisor payload fragment Table B.66 – PSRType payload fragment
327	B.74 RevisionHistory fragment Figure B.35 – ReleasedToSupervisor payload fragment Figure B.36 – RevisionHistory payload fragment
328	B.75 SafetyDocument fragment Figure B.37 – SafetyDocument payload fragment Table B.67 – RevisionHistory payload fragment
329	Table B.68 – SafetyDocument payload fragment
330	B.76 ServiceLocation fragment Figure B.38 – ServiceLocation payload fragment
331	B.77 ServicePointOutageSummary fragment Table B.69 – ServiceLocation payload fragment
332	B.78 ShuntCompensator fragment B.79 Status fragment Figure B.39 – ShuntCompensator payload fragment Table B.70 – ServicePointOutageSummary payload fragment Table B.71 – ShuntCompensator payload fragment
333	B.80 StreetAddress fragment B.81 StreetDetail fragment Figure B.40 – Status payload fragment Table B.72 – Status payload fragment Table B.73 – StreetAddress payload fragment
334	B.82 StringMeasurement fragment Figure B.41 – StreetDetail payload fragment Table B.74 – StreetDetail payload fragment
335	Table B.75 – StringMeasurement payload fragment
336	B.83 StringMeasurementValue fragment B.84 Structure fragment Table B.76 – StringMeasurementValue payload fragment
337	B.85 Substation fragment B.86 Switch fragment Table B.77 – Structure payload fragment Table B.78 – Substation payload fragment
338	B.87 SwitchPhase fragment Figure B.42 – SwitchPhase payload fragment Table B.79 – Switch payload fragment
339	B.88 TaggedPSRs fragment Figure B.43 – TaggedPSRs payload fragment Table B.80 – SwitchPhase payload fragment
340	B.89 TelephoneNumber fragment B.90 Terminal fragment Table B.81 – TelephoneNumber payload fragment
341	Figure B.44 – Terminal payload fragment Table B.82 – Terminal payload fragment
342	B.91 TimeSchedule fragment B.92 Tower fragment Figure B.45 – TimeSchedule payload fragment Table B.83 – TimeSchedule payload fragment
343	B.93 TownDetail fragment Table B.84 – Tower payload fragment
344	B.94 TroubleReporter fragment Figure B.46 – TownDetail payload fragment Figure B.47 – TroubleReporter payload fragment Table B.85 – TownDetail payload fragment
345	B.95 TroubleSymptoms fragment Figure B.48 – TroubleSymptoms payload fragment Table B.86 – TroubleReporter payload fragment
346	Table B.87 – TroubleSymptoms payload fragment
347	B.96 UndergroundStructure fragment B.97 UsagePoint fragment Table B.88 – UndergroundStructure payload fragment
348	B.98 UsagePointLocation fragment Table B.89 – UsagePoint payload fragment
349	Figure B.49 – UsagePointLocation payload fragment
350	B.99 WirePhaseInfo fragment B.100 WirePosition fragment Table B.90 – UsagePointLocation payload fragment Table B.91 – WirePhaseInfo payload fragment
351	B.101 WireSpacing fragment B.102 WorkActivityRecord fragment Table B.92 – WirePosition payload fragment Table B.93 – WireSpacing payload fragment
352	Table B.94 – WorkActivityRecord payload fragment
353	Annex C (normative)Enumerated classes C.1 AssetKind enumeration class C.2 AssetLifeCycleStateKind enumeration class Table C.1 – AssetKind Table C.2 – AssetLifeCycleStateKind
354	C.3 AssetModelUsageKind enumeration class C.4 ClearanceActionKind enumeration class C.5 CorporateStandardKind enumeration class Table C.3 – AssetModelUsageKind Table C.4 – ClearanceActionKind Table C.5 – CorporateStandardKind
355	C.6 CrewStatusKind enumeration class C.7 CustomerKind enumeration class C.8 ERTConfidenceKind enumeration class Table C.6 – CrewStatusKind Table C.7 – CustomerKind
356	C.9 InUseStateKind enumeration class C.10 OutageCauseKind enumeration class Table C.8 – ERTConfidenceKind Table C.9 – InUseStateKind Table C.10 – OutageCauseKind
357	C.11 OutageStatusKind enumeration class C.12 PhaseCode enumeration class Table C.11 – OutageStatusKind Table C.12 – PhaseCode
358	C.13 PhaseConnectedFaultKind enumeration class Table C.13 – PhaseConnectedFaultKind
359	C.14 PoleBaseKind enumeration class C.15 RevisionKind enumeration class C.16 RetiredReasonKind enumeration class Table C.14 – PoleBaseKind Table C.15 – RevisionKind Table C.16 – RetiredReasonKind
360	C.17 SinglePhaseKind enumeration class C.18 Source enumeration class C.19 StructureMaterialKind enumeration class Table C.17 – SinglePhaseKind Table C.18 – Source Table C.19 – StructureMaterialKind
361	C.20 SwitchActionKind enumeration class C.21 TagActionKind enumeration class C.22 TempEquipActionKind enumeration class Table C.20 – SwitchActionKind Table C.21 – TagActionKind Table C.22 – TempEquipActionKind
362	C.23 TowerConstructionKind enumeration class C.24 TroubleReportingKind enumeration class C.25 TroubleSymptomsExtentKind enumeration class C.26 TroubleSymptomsLightKind enumeration class Table C.23 – TowerConstructionKind Table C.24 – TroubleReportingKind Table C.25 – TroubleSymptomsExtentKind
363	C.27 TroubleSymptomsPoleKind enumeration class C.28 TroubleSymptomsTransformerKind enumeration class C.29 TroubleSymptomsTreeKind enumeration class Table C.26 – TroubleSymptomsLightKind Table C.27 – TroubleSymptomsPoleKind Table C.28 – TroubleSymptomsTransformerKind
364	C.30 TroubleSymptomsWireKind enumeration class C.31 UndergroundStructureKind enumeration class Table C.29 – TroubleSymptomsTreeKind Table C.30 – TroubleSymptomsWireKind Table C.31 – UndergroundStructureKind
365	C.32 Validity enumeration class C.33 WireUsageKind enumeration class C.34 WorkKind enumeration class Table C.32 – Validity Table C.33 – WireUsageKind Table C.34 – WorkKind
366	C.35 WorkStatusKind enumeration class C.36 WorkTaskKind enumeration class Table C.35 – WorkStatusKind Table C.36 – WorkTaskKind
367	Annex D (informative)Profiles defined in other parts of IEC 61968 D.1 CustomerAgreementConfig payload
368	D.2 CustomerConfig payload Figure D.1 – CustomerAgreementConfig payload
369	Figure D.2 – CustomerConfig payload
370	D.3 MeterConfig payload
371	Figure D.3 – MeterConfig payload
372	D.4 UsagePointConfig payload
373	Figure D.4 – UsagePointConfig payload
374	D.5 UsagePointLocationConfig payload
375	Figure D.5 – UsagePointLocationConfig payload
376	Bibliography

Additional information

Status	Definitive
Pages	378
Publication Date	2021-06-16
ISBN	978 0 539 14439 0
Standard Number	BS EN IEC 61968-3:2021
Title	Application integration at electric utilities. System interfaces for distribution management – Interface for network operations
Identical National Standard Of	IEC 61968-3:202, EN 61968-3 Ed.3.0, ERROR
Replaces	BS EN IEC 61968-3:2018, BS EN 61008-1:2004+A13 :2012
Descriptors	Information exchange, Electric power distribution, Data transfer, Electric power networks, Electric power transmission networks, Data handling, Interfaces (data processing), Systemology, Computerized control, Electric power systems, Management techniques, Data processing, Interfaces, Maintenance, Electric power transmission, Data transmission, Reliability, Control systems
Publisher	BSI
Committee	PEL/57
ICS Codes	33.200 - Telecontrol. Telemetering

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