IEC TR 62689-100:2016

IEC TR 62689-100 ®
Edition 1.0 2016-10
TECHNICAL
REPORT
colour
inside
Current and voltage sensors or detectors, to be used for fault passage indication
purposes –
Part 100: Requirements and proposals for the IEC 61850 series data model
extensions to support fault passage indicators applications

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IEC TR 62689-100 ®
Edition 1.0 2016-10
TECHNICAL
REPORT
colour
inside
Current and voltage sensors or detectors, to be used for fault passage indication

purposes –
Part 100: Requirements and proposals for the IEC 61850 series data model

extensions to support fault passage indicators applications

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
ICS 17.220.20 ISBN 978-2-8322-3724-3

– 2 – IEC TR 62689-100:2016 © IEC 2016
CONTENTS
FOREWORD. 6
INTRODUCTION . 8
1 Scope . 9
2 Normative references . 9
3 Terms, definitions and abbreviated terms . 9
3.1 Terms and definitions . 9
3.2 Abbreviated terms . 10
3.2.1 Generic abbreviated terms . 10
3.2.2 Proposed specifically for the data model part of this document . 11
3.2.3 Existing abbreviated terms used in IEC 61850 (all parts) data object
names model . 12
3.3 Fault classification definitions . 22
4 Requirements and use cases . 23
4.1 General . 23
4.2 Common actors . 24
4.3 Use cases: fault indication and report . 33
4.3.1 Generic use case – Not fault type specific . 33
4.3.2 Overcurrent non directional Fault Localization and Indication (F1C/NC) . 51
4.3.3 Phase to earth faults, non directional fault detection (F2) . 52
4.3.4 Overcurrent and phase to earth non directional faults detection (F3) . 52
4.3.5 Overcurrent, directional and non directional, fault detection (F4) . 53
4.3.6 Overcurrent, non directional, phase to earth faults, directional and non
directional fault detection (F5) . 53
4.3.7 Overcurrents and phase to earth faults, directional and non directional
fault detection (F6) . 53
4.4 Use cases related to “other functions” . 53
4.4.1 Report on device health . 53
4.4.2 Monitor substation environment . 53
4.4.3 Monitor external communication . 53
4.4.4 Monitor energy flow (energy flow related use cases) . 53
4.4.5 Contribute to distributed automatic FLISR . 59
4.4.6 Contribute to distributed automatic VVC . 75
4.4.7 Contribute to distributed DER management . 75
4.5 Use cases related to “Product life cycle” . 75
4.5.1 IED configuration via CID file . 75
5 Information Models . 100
5.1 Mapping of requirements on LNs . 100
5.1.1 General . 100
5.1.2 Mapping of the requirements of Fault Identification and report . 100
5.1.3 Mapping of the requirements of “other functions” . 101
5.1.4 Mapping of the requirements of “product life cycle” (FieldComp remote
configuration) . 103
6 Logical node classes . 103
6.1 General . 103
6.2 Package LNGroupL . 104
6.2.1 General . 104
6.2.2 LICH LN . 106

6.2.3 LN: Common LD Settings  Name: LCLD . 107
6.3 Package LNGroupM . 108
6.3.1 General . 108
6.3.2 LN: Energy  Name: MMTNExt . 109
6.3.3 LN: Energy  Name: MMTRExt . 111
6.3.4 LN: Measurement  Name: MMXNExt . 113
6.3.5 LN: Measurement  Name: MMXUExt . 114
6.4 Package LNGroupS . 116
6.4.1 General . 116
6.4.2 LN: Current presence monitoring  Name: SCPI . 117
6.4.3 LN: Fault Passage Indicator  Name: SFPI . 118
6.4.4 LN: Fault indicator statistic calculation  Name: SFST . 120
6.4.5 LN: Voltage presence indicator  Name: SVPI . 121
7 Data object name semantics and enumerations . 123
7.1 Data semantics . 123
7.2 Enumerated data attribute types . 126
7.2.1 General . 126
7.2.2 CIDHandlingResultKind enumeration . 127
7.2.3 CIDHandlingStatusKind enumeration . 128
7.2.4 CurrentTransformersArrangementKind enumeration . 128
7.2.5 FaultConfirmationModeKind enumeration . 128
7.2.6 FaultPermanenceKind enumeration . 129
7.2.7 PwrFlwSignKind enumeration . 129
8 SCL enumerations (from DOEnumsJAHWG51) . 129
9 References . 130
Annex A (informative) Interpretation of logical node tables . 131
A.1 General interpretation of logical node tables . 131
A.2 Conditions for element presence . 131
Bibliography . 134

Figure 1 – Actors global hierarchy . 25
Figure 2 – System Actors SGAM positioning (function) . 26
Figure 3 – System Actors SGAM positioning (not function related) . 27
Figure 4 – Fault indication – Main use case . 35
Figure 5 – Fault detection and indication – T1 . 36
Figure 6 – Fault detection and indication– T2 . 37
Figure 7 – Fault detection and indication for FPI – T3,T4 (with communication to
HV/MV SS) in the context of FLISR as described in 4.4.5 . 38
Figure 8 – Fault detection and indication for FPI – T3,T4 (without communication to
HV/MV SS) in the context of FLISR as described in 4.4.5 . 39
Figure 9 – Voltage presence/absence . 52
Figure 10 – Energy flow related use cases . 54
Figure 11 – Sequence diagram for monitoring energy flows use cases . 55
Figure 12 – Logical selectivity – FLI along the MV feeder . 61
Figure 13 – Logical selectivity – FLI inside the EU plant . 62
Figure 14 – Logical selectivity – FLI along the MV feeder and anti-islanding . 63
Figure 15 – Use case – fault location indication . 64

– 4 – IEC TR 62689-100:2016 © IEC 2016
Figure 16 – For further analysis . 65
Figure 17 – IED configuration process via CID . 77
Figure 18 – FieldComp configuration – Main UC . 78
Figure 19 – FieldComp asset management . 79
Figure 20 – Gri
...