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SIST EN 61850-5:2013

(Main)

Communication networks and systems for power utility automation - Part 5: Communication requirements for functions and device models

Communication networks and systems for power utility automation - Part 5: Communication requirements for functions and device models

The specifications of this part refer to the communication requirements of the functions in power automation systems. Most examples of functions and their communication requirements in this part are originated primarily from the substation automation domain and may be reused or extended for other domains within power utility automation if applicable. Note that sometimes instead of the term substation automation domain the term substation domain is used, especially if both the switchyard devices (primary system) and the automation system (secondary system) is regarded. The description of the functions is not used to standardize the functions, but to identify communication requirements between Intelligent Electronic Devices within plants and substations in the power system, between such stations s (e.g. between substation for line protection) and between the plant or substation and higher-level remote operating places (e.g. network control centres) and maintenance places. Also interfaces to remote technical services (e.g. maintenance centres) are considered. The general scope is the communication
requirements for power utility automation systems. The basic goal is interoperability for all interactions providing a seamless communication system for the overall power system management. Standardizing functions and their implementation is completely outside the scope of this standard. Therefore, it cannot be assumed a single philosophy of allocating functions to devices. To support the resulting request for free allocation of functions, a proper breakdown of functions into parts relevant for communication is defined. The exchanged data and their required performance are defined. The same or similar intelligent electronic devices from substations like protective and control devices are found in other installations like power plants also. Using this standard for such devices in these plants facilitates the system integration e.g. between the power plant control and the related substation automation system. For some of such other application domains like wind power plants, hydro power plants and distributed energy resources specific standard parts according to IEC 61850 series have been already defined and published.

Kommunikationsnetze und -systeme für die Automatisierung in der elektrischen Energieversorgung - Teil 5: Kommunikationsanforderungen für Funktionen und Gerätemodelle

Réseaux et systèmes de communication pour l'automatisation des compagnies d'électricité - Partie 5: Exigences de communication pour les modèles de fonctions et d’appareils

La CEI 61850-5:2013 s'applique aux systèmes d'automatisation des systèmes électriques avec la partie de base des systèmes d'automatisation de poste. Elle normalise les communications entre les appareils électroniques intelligents ainsi que les exigences concernant les systèmes associés. Les principales modifications techniques par rapport à l'édition précédente sont les suivantes:  - extension de l'automatisation de poste aux systèmes d'automatisation des systèmes électriques;  - inclusion des interfaces de communication entre postes;  - exigences en matière de communication au-delà de la limite du poste.

Komunikacijska omrežja in sistemi za avtomatizacijo porabe električne energije - 5. del: Komunikacijske zahteve za funkcije in modeli naprav (IEC 61850-5:2013)

Specifikacije iz tega dela se nanašajo na komunikacijske zahteve za funkcije v sistemih za avtomatizacijo porabe električne energije. Večina primerov funkcij in njihovih komunikacijskih zahtev v tem delu izvira predvsem iz domene avtomatizacije razdelilne postaje, pri čemer jih je mogoče po potrebi ponovno uporabiti ali razširiti za druge domene v okviru avtomatizacije porabe električne energije. Včasih se namesto izraza domena avtomatizacije razdelilne postaje uporablja izraz domena razdelilne postaje, zlasti če se upoštevajo ranžirne naprave (primarni sistem) in avtomatizacijski sistem (sekundarni sistem). Opis funkcij se ne uporablja za standardizacijo funkcij, ampak za opredelitev komunikacijskih zahtev med inteligentnimi elektronskimi napravami v obratih in razdelilnih postajah v napajalnem sistemu, med takšnimi postajami (npr. med razdelilno postajo za zaščito linije) ter med obratom ali razdelilno postajo in oddaljenimi upravljalnimi prostori na višji ravni (npr. omrežna nadzorna središča) in vzdrževalnimi prostori. Obravnavani so tudi vmesniki do oddaljenih tehničnih storitev (npr. vzdrževalna središča). Splošno področje uporabe so komunikacijske zahteve za sisteme za avtomatizacijo porabe električne energije. Osnovni cilj je interoperabilnost za vse interakcije, pri čemer se zagotovi celosten komunikacijski sistem za celovito upravljanje napajalnega sistema. Standardizacija funkcij in njihovo izvajanje sta popolnoma zunaj področja uporabe tega standarda. Zato ni mogoče predpostaviti, da gre za enotno filozofijo dodeljevanja funkcij napravam. V podporo posledični zahtevi za prosto dodeljevanje funkcij je opredeljena ustrezna razčlenitev funkcij na dele, ustrezne za komunikacijo. Opredeljeni so izmenjani podatki in njihovo zahtevano delovanje. Enake ali podobne inteligentne elektronske naprave iz razdelilnih postaj, kot so zaščitne in krmilne naprave, so tudi v drugih obratih, kot so elektrarne. Uporaba tega standarda za takšne naprave v teh obratih lajša integracijo sistema, npr. med krmilnim sistemom elektrarne in povezanim sistemom avtomatizacije razdelilne naprave. Za nekatere tovrstne druge domene uporabe, kot so vetrne elektrarne, hidroelektrarne in distribuirani energetski viri, so že opredeljeni in izdani posebni deli standarda v skladu s skupino standardov IEC 61850.

General Information

Status
Published
Publication Date
27-May-2013
ICS
29.240.30 - Control equipment for electric power systems
33.200 - Telecontrol. Telemetering
Technical Committee
PSE - Power systems management
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
15-May-2013
Due Date
20-Jul-2013
Completion Date
28-May-2013
Ref Project
EN 61850-5:2013 - Communication networks and systems for power utility automation - Part 5: Communication requirements for functions and device models

Relations

Replaces
SIST EN 61850-5:2004 - Communication networks and systems in substations -- Part 5: Communication requirements for functions and device models
Effective Date
01-Jun-2013
Replaces
SIST EN 61850-5:2004 - Communication networks and systems in substations -- Part 5: Communication requirements for functions and device models
Effective Date
29-Jan-2023
Revised
SIST EN 61850-5:2004 - Communication networks and systems in substations -- Part 5: Communication requirements for functions and device models
Effective Date
06-May-2014
Amended By
SIST EN 61850-5:2013/A1:2022 - Communication networks and systems for power utility automation - Part 5: Communication requirements for functions and device models
Effective Date
01-Jul-2022

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Standards Content (Sample)

SLOVENSKI STANDARD
SIST EN 61850-5:2013
01-junij-2013
1DGRPHãþD
SIST EN 61850-5:2004
.RPXQLNDFLMVNDRPUHåMDLQVLVWHPL]DDYWRPDWL]DFLMRSRUDEHHOHNWULþQHHQHUJLMH
GHO.RPXQLNDFLMVNH]DKWHYH]DIXQNFLMHLQPRGHOLQDSUDY ,(&
Communication networks and systems for power utility automation - Part 5:
Communication requirements for functions and device models
Réseaux et systèmes de communication pour l'automatisation des compagnies
d'électricité - Partie 5: Exigences de communication pour les modèles de fonctions et
d’appareils
Ta slovenski standard je istoveten z: EN 61850-5:2013
ICS:
29.240.30 Krmilna oprema za Control equipment for electric
elektroenergetske sisteme power systems
33.200 Daljinsko krmiljenje, daljinske Telecontrol. Telemetering
meritve (telemetrija)
SIST EN 61850-5:2013 en
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

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SIST EN 61850-5:2013

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SIST EN 61850-5:2013

EUROPEAN STANDARD
EN 61850-5

NORME EUROPÉENNE
May 2013
EUROPÄISCHE NORM

ICS 33.200 Supersedes EN 61850-5:2003


English version


Communication networks and systems for power utility automation -
Part 5: Communication requirements for functions and device models
(IEC 61850-5:2013)


Réseaux et systèmes de communication Kommunikationsnetze und -systeme für
pour l'automatisation des systèmes die Automatisierung in der elektrischen
électriques - Energieversorgung -
Partie 5: Exigences de communication Teil 5: Kommunikationsanforderungen
pour les modèles de fonctions et für Funktionen und Gerätemodelle
d’appareils (IEC 61850-5:2013)
(CEI 61850-5:2013)




This European Standard was approved by CENELEC on 2013-03-06. CENELEC members are bound to comply
with the CEN/CENELEC Internal Regulations which stipulate the conditions for giving this European Standard
the status of a national standard without any alteration.

Up-to-date lists and bibliographical references concerning such national standards may be obtained on
application to the CEN-CENELEC Management Centre or to any CENELEC member.

This European Standard exists in three official versions (English, French, German). A version in any other
language made by translation under the responsibility of a CENELEC member into its own language and notified
to the CEN-CENELEC Management Centre has the same status as the official versions.

CENELEC members are the national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus,
the Czech Republic, Denmark, Estonia, Finland, Former Yugoslav Republic of Macedonia, France, Germany,
Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland,
Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland, Turkey and the United Kingdom.

CENELEC
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung

Management Centre: Avenue Marnix 17, B - 1000 Brussels


© 2013 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members.
Ref. No. EN 61850-5:2013 E

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SIST EN 61850-5:2013
EN 61850-5:2013 - 2 -
Foreword
The text of document 57/1286/FDIS, future edition 2 of IEC 61850-5, prepared by IEC/TC 57 "Power
systems management and associated information exchange" was submitted to the IEC-CENELEC
parallel vote and approved by CENELEC as EN 61850-5:2013.

The following dates are fixed:
(dop) 2013-12-06
• latest date by which the document has
to be implemented at national level by
publication of an identical national
standard or by endorsement
• latest date by which the national (dow) 2016-03-06
standards conflicting with the
document have to be withdrawn

This document supersedes EN 61850-5:2003.

EN 61850-5:2013 includes the following significant technical changes with respect to
EN 61850-5:2003:
- extension from substation automation systems to utility automation systems;
- including the interfaces for communication between substations (interfaces 2 and 11);
- requirements from communication beyond the boundary of the substation.

Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC [and/or CEN] shall not be held responsible for identifying any or all such
patent rights.

Endorsement notice
The text of the International Standard IEC 61850-5:2013 was approved by CENELEC as a European
Standard without any modification.
In the official version, for Bibliography, the following notes have to be added for the standards indicated:

IEC 60834-1:1999 NOTE Harmonised as EN 60834-1.
IEC 60870-5 Series NOTE Harmonised as EN 60870-5 Series (not modified).
IEC 61000-4-30 NOTE Harmonised as EN 61000-4-30.
IEC 61850-3 NOTE Harmonised as EN 61850-3.
IEC 61850-7 Series NOTE Harmonised as EN 61850-7 Series (not modified).
IEC 61850-7-1 NOTE Harmonised as EN 61850-7-1.
IEC 61850-7-2 NOTE Harmonised as EN 61850-7-2.
IEC 61850-7-3 NOTE Harmonised as EN 61850-7-3.
IEC 61850-7-4 NOTE Harmonised as EN 61850-7-4.
IEC 61850-8 Series NOTE Only Part 8-1 is Harmonised as EN 61850-8-1.
IEC 61850-9 Series NOTE Harmonised as EN 61850-9-2 Series (not modified).
IEC 61850-10 NOTE Harmonised as EN 61850-10.

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SIST EN 61850-5:2013
- 3 - EN 61850-5:2013
Annex ZA
(normative)

Normative references to international publications
with their corresponding European publications

The following documents, in whole or in part, are normatively referenced in this document and are
indispensable for its application. For dated references, only the edition cited applies. For undated
references, the latest edition of the referenced document (including any amendments) applies.

NOTE  When an international publication has been modified by common modifications, indicated by (mod), the relevant EN/HD
applies.

Publication Year Title EN/HD Year

IEC 61000-4-15 - Electromagnetic compatibility (EMC) - EN 61000-4-15 -
Part 4-15: Testing and measurement
techniques - Flickermeter - Functional and
design specifications


IEC/TS 61850-2 - Communication networks and systems in - -
substations -
Part 2: Glossary


IEC 61850-6 - Communication networks and systems for EN 61850-6 -
power utility automation -
Part 6: Configuration description language
for communication in electrical substations
related to IEDs


IEC 81346 Series Industrial systems, installations and EN 81346 Series
equipment and industrial products -
Structuring principles and reference
designations


Cigre JWG 2007 Protection using telecommunication, Cigre - -
34./35.11 Technical Brochure (TB) 192

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SIST EN 61850-5:2013

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SIST EN 61850-5:2013




IEC 61850-5

®


Edition 2.0 2013-01




INTERNATIONAL



STANDARD




NORME



INTERNATIONALE
colour

inside










Communication networks and systems for power utility automation –

Part 5: Communication requirements for functions and device models




Réseaux et systèmes de communication pour l'automatisation des systèmes

électriques –

Partie 5: Exigences de communication pour les modèles de fonctions et


d’appareils













INTERNATIONAL

ELECTROTECHNICAL

COMMISSION


COMMISSION

ELECTROTECHNIQUE

PRICE CODE
INTERNATIONALE

CODE PRIX XG


ICS 33.200 ISBN 978-2-83220-556-3



Warning! Make sure that you obtained this publication from an authorized distributor.

Attention! Veuillez vous assurer que vous avez obtenu cette publication via un distributeur agréé.

® Registered trademark of the International Electrotechnical Commission
Marque déposée de la Commission Electrotechnique Internationale

---------------------- Page: 7 ----------------------

SIST EN 61850-5:2013
– 2 – 61850-5  IEC:2013
CONTENTS
FOREWORD . 7
INTRODUCTION . 9
1 Scope . 11
2 Normative references . 11
3 Terms and definitions . 12
3.1 General . 12
3.2 Connections . 14
3.3 Relations between IEDs . 15
3.4 Substation structures. 15
3.5 Power utility automation functions at different levels. 16
3.6 Miscellaneous . 17
4 Abbreviations . 17
5 Power utility automation functions . 17
5.1 General . 17
5.2 Example substation automation system . 18
5.2.1 General . 18
5.2.2 Logical allocation of functions and interfaces . 18
5.2.3 The physical allocation of functions and interfaces . 20
5.2.4 The role of interfaces . 20
5.3 Other application examples . 21
5.3.1 Substation – Substation . 21
5.3.2 Substation – Network Control . 21
5.3.3 Wind . 21
5.3.4 Hydro . 21
5.3.5 DER . 21
6 Goal and requirements . 21
6.1 Interoperability . 21
6.2 Static design requirements . 22
6.3 Dynamic interaction requirements . 22
6.4 Response behaviour requirements . 23
6.5 Approach to interoperability . 23
6.6 Conformance test requirements . 24
7 Categories of functions . 24
7.1 General . 24
7.2 System support functions . 24
7.3 System configuration or maintenance functions . 24
7.4 Operational or control functions . 25
7.5 Bay local process automation functions . 25
7.6 Distributed process automation functions . 25
8 Function description and function requirements . 26
8.1 Approach . 26
8.2 Function description . 27
8.3 The PICOM description . 27
8.3.1 The PICOM approach . 27
8.3.2 The content of PICOM description . 27

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SIST EN 61850-5:2013
61850-5  IEC:2013 – 3 –
8.3.3 Attributes of PICOMs . 27
8.3.4 PICOM attributes to be covered by any message . 27
8.3.5 PICOM attributes to be covered at configuration time only . 28
8.3.6 PICOM attributes to be used for data flow calculations only . 28
8.4 Logical node description . 28
8.4.1 The logical node concept . 28
8.4.2 Logical nodes and logical connections . 29
8.4.3 Examples for decomposition of common functions into logical nodes . 30
8.5 List of logical nodes . 31
8.5.1 Logical Node allocation and distributed functions . 31
8.5.2 Explanation to tables . 32
8.5.3 Protection . 33
8.5.4 Logical nodes for protection related functions . 40
8.5.5 Control . 42
8.5.6 Interfaces, logging, and archiving . 43
8.5.7 Automatic process control . 44
8.5.8 Functional blocks . 45
8.5.9 Metering and measurement . 46
8.5.10 Power quality . 47
8.5.11 Physical device and common data . 48
8.6 LNs related to system services . 48
8.6.1 System and device security . 48
8.6.2 Switching devices . 49
8.6.3 LN for supervision and monitoring . 50
8.6.4 Instrument transformers . 51
8.6.5 Position sensors . 51
8.6.6 Material status sensors . 52
8.6.7 Flow status sensors . 52
8.6.8 Generic sensors . 52
8.6.9 Power transformers . 53
8.6.10 Further power system equipment . 53
8.6.11 Generic process I/O . 54
8.7 Mechanical non-electrical primary equipment . 54
9 The application concept for logical nodes . 54
9.1 Example out of the domain substation automation . 54
9.2 Typical allocation and use of logical nodes . 54
9.2.1 Free allocation of LNs. 54
9.2.2 Station level . 55
9.2.3 Bay level . 55
9.2.4 Process/switchgear level . 55
9.2.5 The use of generic logical nodes . 55
9.3 Basic examples . 55
9.4 Additional examples . 56
9.5 Modelling . 58
9.5.1 Important remarks . 58
9.5.2 Object classes and instances . 58
9.5.3 Requirements and modelling . 58
9.5.4 LN and modelling. 58
9.5.5 Use of LN for applications . 59

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SIST EN 61850-5:2013
– 4 – 61850-5  IEC:2013
10 System description and system requirements . 59
10.1 Need for a formal system description. 59
10.2 Requirements for logical node behaviour in the system . 59
11 Performance requirements . 60
11.1 Message performance requirements . 60
11.1.1 Basic definitions and requirements . 60
11.1.2 Message types and performance classes. 65
11.1.3 Definition of transfer time and synchronization classes . 66
11.2 Messages types and performances classes . 69
11.2.1 Type 1 – Fast messages (“Protection”) . 69
11.2.2 Type 2 – Medium speed messages (“Automatics”) . 69
11.2.3 Type 3 – Low speed messages (“Operator”) . 70
11.2.4 Type 4 – Raw data messages (“Samples”) . 70
11.2.5 Type 5 – File transfer functions . 70
11.2.6 Type 6 – Command messages and file transfer with access control . 71
11.3 Requirements for data and communication quality . 71
11.3.1 General remarks . 71
11.3.2 Data integrity . 72
11.3.3 Reliability . 73
11.3.4 Availability . 74
11.4 Requirements concerning the communication system . 74
11.4.1 Communication failures . 74
11.4.2 Requirements for station and bay level communication . 75
11.4.3 Requirements for process level communication . 75
11.4.4 Requirements for recovery delay . 76
11.4.5 Requirements for communication redundancy . 76
11.5 System performance requirements . 76
12 Additional requirements for the data model . 77
12.1 Semantics . 77
12.2 Logical and physical identification and addressing. 77
12.3 Self-description . 77
12.4 Administrative issues. 77
Annex A (informative) Logical nodes and related PICOMs . 78
Annex B (informative) PICOM identification and message classification . 93
Annex C (informative) Communication optimization . 101
Annex D (informative) Rules for function definition . 102
Annex E (informative) Interaction of functions and logical nodes . 104
Annex F (informative) Functions . 105
Annex G (informative) Results from function description . 129
Annex H (informative) Substation configurations . 135
Annex I (informative) Examples for protection functions in compensated networks. 140
Bibliography . 142

Figure 1 – Relative position of this part of the standard. 10
Figure 2 – Levels and logical interfaces in substation automation systems. 19
Figure 3 – The logical node and link concept (explanation see text) . 30

---------------------- Page: 10 ----------------------

SIST EN 61850-5:2013
61850-5  IEC:2013 – 5 –
Figure 4 – Examples of the application of the logical node concept (explanation see
text) . 31
Figure 5 – Protection function consisting of 3 logical nodes . 32
Figure 6 – The basic communication links of a logical node of main protection type . 39
Figure 7 – Decomposition of functions into interacting LNs on different levels:
Examples for generic automatic function, breaker control function and voltage control
function. 55
Figure 8 – Decomposition of functions into interacting LN on different levels:
Examples for generic function with telecontrol interface, protection function and
measuring/metering function . 56
Figure 9 – Example for control and protection LNs of a transformer bay combined in
one physical device (some kind of maximum allocation) . 56
Figure 10 – Example for interaction of LNs for switchgear control, interlocking,
synchrocheck, autoreclosure and protection (Abbreviation for LN see above) . 57
Figure 11 – Example for sequential interacting of LNs (local and remote) for a complex
function like point-on-wave switching (Abbreviations for LN see above) – Sequence
view . 57
Figure 12 – Circuit breaker controllable per phase (XCBR instances per phase) and
instrument transformers with measuring units per phase (TCTR or TVTR per phase) . 58
Figure 13 – Definition of "overall transfer time" t and indication of processing times . 62
Figure 14 – Transfer time for binary signal with conventional output and input relays . 63
Figure 15 – Definition of transfer time t for binary signals in case of line protection . 64
Figure 16 – Definition of transfer time t over serial link in case of line protection. 64
Figure H.1 – T1-1 Small size transmission substation (single busbar 132 kV with
infeed from 220 kV) . 135
Figure H.2 – D2-1 Medium size distribution substation (double busbar 22 kV with
infeed from 69 kV) . 135
Figure H.3 – T1-2 Small size transmission substation (1 1/2 breaker busbar at 110 kV) . 135
Figure H.4 – T2-2 Large size transmission substation (ring bus at 526 kV, double
busbar at 138 kV) . 136
Figure H.5 – Substation of type T1-1 with allocation functions . 137
Figure H.6 – Substation of type D2-1 with allocated functions . 138
Figure H.7 – Substation of type T1-2 (functions allocated same as for T2-2 in Figure
H.8) . 138
Figure H.8 – Substation of type T2-2 with allocated functions . 139
Figure I.1 – The transient earth fault in a compensated network . 140
Figure I.2 – Short term bypass for single earth fault in compensated networks . 141
Figure I.3 – Double earth fault in compensated networks . 141

Table 1 – Classes for transfer times . 67
Table 2 – Time synchronization classes for IED synchronization . 68
Table 3 – Application of time synchronization classes for time tagging or sampling . 68
Table 4 – Data integrity classes . 72
Table 5 – Security classes . 73
Table 6 – Dependability classes . 74
Table 7 – Requirements on recovery time (examples) . 76
Table A.1 – PICOM groups . 78

---------------------- Page: 11 ----------------------

SIST EN 61850-5:2013
– 6 – 61850-5  IEC:2013
Table A.2 – Logical node list . 79
Table B.1 – PICOM identification (Part 1) . 94
Table B.2 – PICOM identification (Part 2) .
...

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EN IEC 61968-100:2022

1.1 General
This International Standard is Part 100 of IEC 61968. It defines how messages may be exchanged between co-operating systems in order to facilitate the transfer of application-specific data. Such application-specific data include but are not limited to the message payloads defined in IEC 61968 (Parts 3-9 and Part 13), IEC 61970 and IEC 62325.
1.2 About This International Standard
This International Standard provides normative definitions for:
- a set of message archetypes (clause 5);
- a set of message exchange patterns that both sending and receiving systems are expected to implement (clause 6);
- the exact format of the messages that are to be transmitted over the various integration technologies including a precise description of the information that each message must contain (clause 7);
- a set of constraints and conventions to which applications must adhere in order to facilitate message exchange using IEC 61968-100 (clause 8);
-  the details of how IEC 61968-100 messages should be implemented using various underlying transport mechanisms (clause 9).
1.3 What is not covered by this International Standard
Security considerations lie outside the scope of IEC 61968-100. This document defers to the IEC 62351 series for definitions and practices relating to the secure transmission of messages.
1.4 Future Considerations
1.4.1 Choice of Encoding Mechanisms
IEC 61968-100:2021 prescribes XML as the normative encoding mechanism for all messages defined by this International Standard.
Future editions of IEC 61968-100 may specify additional normative encoding methods including support for IEC 62361-104. The latter defines encodings to facilitate the exchange of information in the form of JSON documents whose semantics are defined by the IEC CIM and whose syntax is defined by an IETF JSON schema.
1.4.2 Choice of Web Service Technologies
IEC 61968-100:2021 provides normative definitions for the use of SOAP Web Services (clause 9.2) and Java Messaging Service (clause 9.3) for the transport of messages.
Future editions of IEC 61968-100 may specify additional normative web service technologies such as REST.

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SIST EN IEC 62325-451-8:2022(Main)
Framework for energy market communications - Part 451-8: HVDC processes, contextual and assembly models for European style market
EN IEC 62325-451-8:2022

This part of IEC 62325 specifies a UML package for the HVDC Link scheduling business
process and its associated document contextual models, assembly models and XML schemas
for use within the European style electricity markets.
This part of IEC 62325 is based on the European style market contextual model
(IEC 62325-351). The business process covered by this part of IEC 62325 is described in
Subclause 5.3.
The relevant aggregate core components (ACCs) defined in IEC 62325-351 have been
contextualised into aggregated business information entities (ABIEs) to satisfy the requirements
of the European style market HVDC Link scheduling business process.

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SIST EN 61850-5:2013/A1:2022(Amendment)
Communication networks and systems for power utility automation - Part 5: Communication requirements for functions and device models
EN 61850-5:2013/A1:2022

The specifications of this document refer to general, respectively core, communication
requirements of the application functions in all domains of power utility automation systems.
Dedicated communication requirements and most examples of application functions in this
document are from the domain substation automation but may be reused in or extended to other
domains within power utility automation systems. Note that sometimes instead of the term
substation automation domain the term substation domain is used, especially if both the
switchyard devices (primary system) and the automation system (secondary system) are
regarded.
The description of the application functions is not used to standardize these functions, but to
identify communication requirements between Intelligent Electronic Devices (IEDs) hosting
these functions within plants and substations in the power system, between such stations (e.g.
between substation for line protection) and between the plant or substation and higher-level
remote operating places (e.g. network control centres) and maintenance places. In addition
interfaces to remote technical services (e.g. maintenance centres) are considered. The general
scope is the communication requirements for power utility automation systems. The basic goal
is interoperability for all interactions providing a seamless communication system for the overall
power system management. Another prerequisite for interoperability is a commonly defined
method for time synchronization.
Standardizing application functions and their implementation is completely outside the scope of
this document. Therefore, it cannot be assumed a single philosophy of allocating application
functions to devices. To support the resulting request for free allocation of these functions, a
proper breakdown of these functions into parts relevant for communication is defined. The
exchanged data and their required performance are defined.
The same or similar IEDs from substations like protective and control devices are found in other
domains like power plants also. Using this document for such devices in these plants facilitates
the system integration e.g. between the power plant control and the related substation
automation system. For some of such other application domains like wind power plants, hydro
power plants and distributed energy resources specific standard parts according to the
IEC 61850 series have been already defined and published.

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SIST EN IEC 61970-301:2020/A1:2022(Amendment)
Energy management system application program interface (EMS-API) - Part 301: Common information model (CIM) base
EN IEC 61970-301:2020/A1:2022
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SIST EN IEC 61970-456:2022(Main)
Energy management system application program interface (EMS-API) - Part 456: Solved power system state profiles
EN IEC 61970-456:2022

This part of IEC 61970 belongs to the IEC 61970-450 to IEC 61970-499 series that, taken as a
whole, defines at an abstract level the content and exchange mechanisms used for data
transmitted between power system analyses applications, control centres and/or control centre
components.
The purpose of this document is to rigorously define the subset of classes, class attributes, and
roles from the CIM necessary to describe the result of state estimation, power flow and other
similar applications that produce a steady-state solution of a power network, under a set of use
cases which are included informatively in this document.
This document is intended for two distinct audiences, data producers and data recipients, and
can be read from those two perspectives. From the standpoint of model export software used
by a data producer, the document defines how a producer may describe an instance of a
network case in order to make it available to some other program. From the standpoint of a
consumer, the document defines what that importing software must be able to interpret in order
to consume power flow cases.
There are many different use cases for which use of this document is expected and they differ
in the way that the document will be applied in each case. Implementers are expected to
consider what use cases they wish to cover in order to know the extent of different options they
must cover. As an example, the profiles defined in this document will be used in some cases to
exchange starting conditions rather than solved conditions, so if this is an important use case,
it means that a consumer application needs to be able to handle an unsolved state as well as
one which has met some solution criteria

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SIST EN IEC 61970-452:2022(Main)
Energy management system application program interface (EMS-API) - Part 452: CIM static transmission network model profiles
EN IEC 61970-452:2021

This document is one of the IEC 61970-450 to 499 series that, taken as a whole, defines at an abstract level the content and exchange mechanisms used for data transmitted between control centres and/or control centre components, such as power systems applications.
The purpose of this document is to define the subset of classes, class attributes, and roles from the CIM necessary to execute state estimation and power flow applications. The North American Electric Reliability Council (NERC) Data Exchange Working Group (DEWG) Common Power System Modelling group (CPSM) produced the original data requirements, which are shown in Annex E. These requirements are based on prior industry practices for exchanging power system model data for use primarily in planning studies. However, the list of required data has been extended starting with the first edition of this standard to facilitate a model exchange that includes parameters common to breaker-oriented applications. Where necessary this document establishes conventions, shown in Clause 6, with which an XML data file must comply in order to be considered valid for exchange of models.
This document 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 standard does not dictate how the network is modelled, however. It only dictates what classes, attributes, and associations are to be used to describe the source model as it exists.

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SIST EN IEC 61850-7-420:2022(Main)
Communication networks and systems for power utility automation - Part 7-420: Basic communication structure - Distributed energy resources and distribution automation logical nodes
EN IEC 61850-7-420:2021

This part of IEC 61850 defines the IEC 61850 information models to be used in the exchange
of information with distributed energy resources (DER) and Distribution Automation (DA)
systems. DERs include distribution-connected generation systems, energy storage systems,
and controllable loads, as well as facility DER management systems, including aggregated
DER, such as plant control systems, facility DER energy management systems (EMS), building
EMS, campus EMS, community EMS, microgrid EMS, etc. DA equipment includes equipment
used to manage distribution circuits, including automated switches, fault indicators, capacitor
banks, voltage regulators, and other power management devices.
The IEC 61850 DER information model standard utilizes existing IEC 61850-7-4 logical nodes
where possible, while defining DER and DA specific logical nodes to provide the necessary data
objects for DER and DA functions, including for the DER interconnection grid codes specified
by various countries and regions.
Although this document explicitly addresses distribution-connected resources, most of the
resource capabilities, operational functions, and architectures are also applicable to
transmission-connected resources

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SIST EN IEC 61968-3:2021(Main)
Application integration at electric utilities - System interfaces for distribution management - Part 3: Interface for network operations
EN IEC 61968-3:2021

Per the IEC 61968 Interface Reference Model, the Network Operations function defined in this part of IEC 61968 provides utilities 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 diagram shown in [Figure 1] illustrates the possibility of implementing IEC 61968-3 functionality 51 as either a single integrated advanced distribution management system or as a set of separate functions - OMS, DMS and SCADA. Utilities may chose 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 chose 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, clause 4.3 defines the scope in terms of business functions that are implemented in common vendor offerings.
Annexes in this standard document 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.

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SIST EN IEC 62325-451-7:2021(Main)
Framework for energy market communications - Part 451-7: Balancing processes, contextual and assembly models for European style market
EN IEC 62325-451-7:2021

This part of IEC 62325 specifies a UML package for the electricity balancing business process
and its associated document contextual models, assembly models and XML schemas for use
within the European style electricity markets.
This part of IEC 62325 is based on the European style market contextual model
(IEC 62325-351). The business process covered by this part of IEC 62325 is described in
Clause 5.
The relevant aggregate core components (ACCs) defined in IEC 62325-351 have been
contextualised into aggregated business information entities (ABIEs) to satisfy the requirements
of the European style market publication business process.

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