Enterprise business function interfaces for utility operations - Part 9: Interfaces for meter reading and control (IEC 61968-9:2024)

IEC 61968-9:2024 specifies the information content of a set of message types that can be used to support many of the business functions related to meter reading and control. Typical uses of the message types include meter reading, controls, events, customer data synchronization and customer switching. Although intended primarily for electrical distribution networks, IEC 61968-9 can be used for other metering applications, including non-electrical metered quantities necessary to support gas and water networks.
The purpose of this document is to define a standard for the integration of metering systems (MS), which includes traditional manual systems, and (one or two-way) automated meter reading (AMR) systems, and meter data management (MDM) systems with other enterprise systems and business functions within the scope of IEC 61968. The scope of this document is the exchange of information between metering systems, MDM systems and other systems within the utility enterprise. The specific details of communication protocols those systems employ are outside the scope of this document. Instead, this document will recognize and model the general capabilities that can be potentially provided by advanced and/or legacy meter infrastructures, including two-way communication capabilities such as load control, dynamic pricing, outage detection, distributed energy resource (DER) control signals and on-request read. In this way, this document will not be impacted by the specification, development and/or deployment of next generation meter infrastructures either through the use of standards or proprietary means.
The focus of IEC 61968-9 is to define standard messages for the integration of enterprise applications, these messages may be directly or indirectly related to information flows within a broader scope. Examples would include messaging between head end systems and meters or PAN devices. The various components described later in this document will typically fall into either the category of a metering system (MS) head end, an MDM or other enterprise application (e.g. OMS, DRMS, CIS).
The capabilities and information provided by a meter reading and meter data management systems are important for a variety of purposes, including (but not limited to) interval data, time-based demand data, time-based energy data (usage and production), outage management, service interruption, service restoration, quality of service monitoring, distribution network analysis, distribution planning, demand response, customer billing and work management. This standard also extends the CIM (Common Information Model) to support the exchange of meter data.
This third edition cancels and replaces the second edition published in 2013. This edition constitutes a technical revision. Please see the foreword of IEC 61968-9 for further details.

Integration von Anwendungen in Anlagen der Elektrizitätsversorgung - Systemschnittstellen für Netzführung - Teil 9: Zählerfernauslesung und -steuerung (IEC 61968-9:2024)

Intégration d'application pour les services électriques - Interfaces système pour la gestion de distribution - Partie 9: Interfaces pour le relevé et la commande des compteurs (IEC 61968-9:2024)

l’IEC 61968-9:2024 spécifie le contenu informationnel d'un ensemble de types de messages qui peuvent être utilisés pour prendre en charge de nombreuses fonctions métier relatives au relevé et à la commande des compteurs. Les utilisations typiques des types de messages comprennent le relevé de compteurs, les commandes, les événements, la synchronisation des données client et la commutation de clientèle. Bien qu'elle soit principalement destinée aux réseaux de distribution électrique, l’IEC 61968-9 peut être utilisée pour d'autres applications de comptage, y compris les grandeurs comptées non électriques qui sont nécessaires pour prendre en charge les réseaux de gaz et d'eau.
Le but du présent document est de définir une norme pour l'intégration des systèmes de comptage (MS), qui inclut les systèmes manuels traditionnels et les systèmes de relevés de compteur automatisés (AMR) (à une seule voie ou à deux voies), ainsi que les systèmes de gestion des données de compteur (MDM – meter data management) avec d'autres systèmes et fonctions métier qui s'inscrivent dans le domaine d'application de l’IEC 61968. Le domaine d'application du présent document est l'échange d'informations entre les systèmes de comptage, les systèmes MDM et d'autres systèmes au sein de l'entreprise de distribution. Les informations détaillées spécifiques relatives aux protocoles de communications qu'utilisent les systèmes en question ne relèvent pas du domaine d'application du présent document. En revanche, la présente Norme internationale reconnaîtra et modélisera les capacités générales qui peuvent être potentiellement assurées par des infrastructures de compteurs avancées et/ou héritées, y compris les capacités de communication bidirectionnelle telles que régulation de la charge, tarification dynamique, détection d'interruptions de service, signaux de commande de ressources énergétiques réparties (DER) et lecture sur demande. Ainsi, le présent document ne sera pas influencé par la spécification, le développement et/ou le déploiement d'infrastructures de compteurs de prochaine génération, et ce, ni par l'utilisation de normes ni par des moyens propriétaires.
Les capacités et les informations fournies par des systèmes de relevés de compteurs et de gestion de données de compteur sont importantes pour une diversité d'applications, y compris (entre autres) les données d'intervalles, les données de demande fondées sur la durée, les données d'énergie fondées sur la durée (utilisation et production), la gestion des interruptions de service, l'interruption de service, le rétablissement du service, la surveillance de la qualité de service, l'analyse du réseau de distribution, la planification de la distribution, la réduction de la demande, la facturation des clients et la gestion des travaux. La présente norme étend également le CIM (Common Information Model, c'est-à-dire Modèle d'Information Commun) pour prendre en charge l'échange des données de compteurs.
Cette troisième édition annule et remplace la deuxième édition parue en 2013. Cette édition constitue une révision technique. Veuillez consulter l'avant-propos de la IEC 61968-9 pour plus de détails.

Vmesniki poslovnih funkcij podjetja za komunalne storitve - 9. del: Vmesniki za odčitavanje in nadzor števcev (IEC 61968-9:2024)

Standard IEC 61968-9:2024 določa informacijske vsebine nabora vrst sporočil, ki jih je mogoče uporabljati za podporo številnih poslovnih funkcij v zvezi z odčitavanjem in nadzorom števcev. Značilna uporaba vrst sporočil vključuje odčitavanje, nadzor in dogodke števcev, sinhronizacijo podatkov o strankah in preklapljanje strank. Čeprav je namenjen predvsem omrežjem za distribucijo elektrike, je mogoče standard IEC 61968-9 uporabiti za druge aplikacije v zvezi s števci, vključno z neelektričnimi merjenimi količinami, potrebnimi za podporo plinskih in vodnih omrežij.
Namen tega dokumenta je določiti standard za integracijo merilnih sistemov (MS), ki vključujejo tradicionalne ročne sisteme in (eno- ali dvosmerne) avtomatske sisteme za odčitavanje števcev (AMR) ter sisteme za upravljanje podatkov meritev (MDM), z drugimi podjetniškimi sistemi in poslovnimi funkcijami, ki spadajo na področje uporabe standarda IEC 61968. Področje uporabe tega dokumenta je izmenjava informacij med merilnim sistemom, sistemom za upravljanje podatkov meritev in drugimi sistemi znotraj podjetja. Posamezne podrobnosti o komunikacijskih protokolih, ki jih uporabljajo ti sistemi, ne spadajo na področje uporabe tega dokumenta. Namesto tega ta dokument prepoznava in modelira splošne zmogljivosti, ki jih morebiti lahko zagotavlja napredna in/ali starejša infrastruktura števcev, vključno z zmogljivostmi dvosmerne komunikacije, kot so nadzor obremenitve, dinamično oblikovanje cen, zaznavanje izpada, signali za nadzor virov distribuirane energije (DER) in odčitavanje na zahtevo. Na ta način na ta dokument ne bodo vplivale specifikacije, razvoj in/ali namestitev infrastrukture za števce naslednje generacije, bodisi z uporabo standardov bodisi lastniških sredstev.
Čeprav se standard IEC 61968-9 osredotoča na opredelitev standardnih sporočil za integracijo podjetniških aplikacij, so lahko ta sporočila posredno ali neposredno povezana s pretokom informacij v širšem okviru. Primeri vključujejo sporočanje med sistemi z glavnimi sprejemnimi postajami in merilniki ali napravami PAN. Različne komponente, opisane v tem dokumentu, navadno spadajo v kategorijo glavnih sprejemnih postaj merilnih sistemov, sistemov za upravljanje podatkov meritev ali drugih podjetniških aplikacij (npr. OMS, DRMS, CIS).
Zmogljivosti in informacije, ki jih zagotavljajo sistemi za odčitavanje števcev in upravljanje podatkov meritev, so pomembni za različne namene, kar med drugim vključuje intervalne podatke, časovno odvisne podatke o odjemu, časovno odvisne podatke o energiji (poraba in proizvodnja), upravljanje izpadov, prekinitev storitve, ponovna vzpostavitev storitve, spremljanje kakovosti storitve, analiza distribucijskega omrežja, načrtovanje distribucije, odziv na odjem, zaračunavanje strankam in vodenje dela. Ta standard tudi razširja skupni informacijski model (CIM) za podporo izmenjave podatkov meritev.
Tretja izdaja razveljavlja in nadomešča drugo izdajo, objavljeno leta 2013. Ta izdaja je tehnično popravljena izdaja. Več podrobnosti je na voljo v uvodu standarda IEC 61968-9.

General Information

Status
Published
Public Enquiry End Date
30-May-2023
Publication Date
15-Sep-2024
ICS
29.240.30 - Control equipment for electric power systems
 
33.200 - Telecontrol. Telemetering
 
35.200 - Interface and interconnection equipment
Technical Committee
PSE - Power systems management
Current Stage
6060 - National Implementation/Publication (Adopted Project)
Start Date
12-Sep-2024
Due Date
17-Nov-2024
Completion Date
16-Sep-2024
Mandate
M/490 - Standardisation mandate to the European Standardisation Organisations (ESOs) to support European Smart Grid deployment
Ref Project
EN IEC 61968-9:2024 - Enterprise business function interfaces for utility operations - Part 9: Interfaces for meter reading and control

Relations

Replaces
SIST EN 61968-9:2014 - Application integration at electric utilities - System interfaces for distribution management - Part 9: Interfaces for meter reading and control
Effective Date
01-Nov-2024

Overview

SIST EN IEC 61968-9:2024 (IEC 61968-9:2024) defines standardized message types and information models for integrating metering systems (MS), automated meter reading (AMR), and meter data management (MDM) with other enterprise systems in utility operations. It focuses on the information content of messages (not the transport protocols) to support meter reading, end-device events, remote controls, customer data synchronization and customer switching. Although primarily aimed at electrical distribution, the standard is applicable to other metered utilities (gas, water) and supports legacy and advanced two‑way meter infrastructures.

Key topics and technical requirements

  • Message-based integration: Defines standard messages for exchange between meter head-ends, MDM systems and other enterprise applications (e.g., OMS, DRMS, CIS).
  • Scope excludes transport protocols: Models general capabilities rather than specifying communication stacks.
  • Two-way device capabilities modelled: Load control, dynamic pricing, outage detection, DER control signals, on‑request reads.
  • Message families included: End device event messages, meter reading messages, end device control messages, meter service requests, metering system events, premises area network (PAN) messages, and master data management messages.
  • CIM extensions: Extends the Common Information Model (CIM) to represent meter data and reading types.
  • Data and metadata guidance: Annexes specify ReadingType naming construction, quality code enumerations, EndDeviceEventType enumerations and recommended verb usage for messages.
  • Edition update: This is the 3rd edition, a technical revision superseding the 2013 edition.

Practical applications

  • Billing & customer care: Standardized interval and time‑based energy/usage data exchange for accurate billing and customer switching.
  • Outage & service restoration: Event and alarm messaging for outage detection, service interruption and restoration workflows.
  • Demand response & DER coordination: Control messages for load control, dynamic pricing signals and DER interactions.
  • Network planning & operations: Time‑based demand/production data supports distribution analysis, planning and quality-of-service monitoring.
  • Meter system integration: Enables integration of head-end systems, AMR/AMI deployments and MDM with broader enterprise IT landscapes.

Who should use this standard

  • Utility architects, system integrators and MDM vendors
  • Meter and AMI/AMR manufacturers
  • Distribution system operators (DSOs), billing/CIS teams, outage/DMS/DRMS implementers
  • Consultants and solution providers involved in smart meter deployments and enterprise application integration

Related standards

  • IEC 61968-1 (interface architecture), IEC 61968-11 (CIM extensions for distribution), IEC 61968-100 (implementation profiles)
  • IEC 62056 series (meter data exchange/DLMS)
  • IEC 61970-301 (CIM base for EMS)

Keywords: IEC 61968-9, meter reading, meter data management, AMR, MDM, smart meter integration, CIM extensions, meter control, utility operations.

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Frequently Asked Questions

SIST EN IEC 61968-9:2024 is a standard published by the Slovenian Institute for Standardization (SIST). Its full title is "Enterprise business function interfaces for utility operations - Part 9: Interfaces for meter reading and control (IEC 61968-9:2024)". This standard covers: IEC 61968-9:2024 specifies the information content of a set of message types that can be used to support many of the business functions related to meter reading and control. Typical uses of the message types include meter reading, controls, events, customer data synchronization and customer switching. Although intended primarily for electrical distribution networks, IEC 61968-9 can be used for other metering applications, including non-electrical metered quantities necessary to support gas and water networks. The purpose of this document is to define a standard for the integration of metering systems (MS), which includes traditional manual systems, and (one or two-way) automated meter reading (AMR) systems, and meter data management (MDM) systems with other enterprise systems and business functions within the scope of IEC 61968. The scope of this document is the exchange of information between metering systems, MDM systems and other systems within the utility enterprise. The specific details of communication protocols those systems employ are outside the scope of this document. Instead, this document will recognize and model the general capabilities that can be potentially provided by advanced and/or legacy meter infrastructures, including two-way communication capabilities such as load control, dynamic pricing, outage detection, distributed energy resource (DER) control signals and on-request read. In this way, this document will not be impacted by the specification, development and/or deployment of next generation meter infrastructures either through the use of standards or proprietary means. The focus of IEC 61968-9 is to define standard messages for the integration of enterprise applications, these messages may be directly or indirectly related to information flows within a broader scope. Examples would include messaging between head end systems and meters or PAN devices. The various components described later in this document will typically fall into either the category of a metering system (MS) head end, an MDM or other enterprise application (e.g. OMS, DRMS, CIS). The capabilities and information provided by a meter reading and meter data management systems are important for a variety of purposes, including (but not limited to) interval data, time-based demand data, time-based energy data (usage and production), outage management, service interruption, service restoration, quality of service monitoring, distribution network analysis, distribution planning, demand response, customer billing and work management. This standard also extends the CIM (Common Information Model) to support the exchange of meter data. This third edition cancels and replaces the second edition published in 2013. This edition constitutes a technical revision. Please see the foreword of IEC 61968-9 for further details.

IEC 61968-9:2024 specifies the information content of a set of message types that can be used to support many of the business functions related to meter reading and control. Typical uses of the message types include meter reading, controls, events, customer data synchronization and customer switching. Although intended primarily for electrical distribution networks, IEC 61968-9 can be used for other metering applications, including non-electrical metered quantities necessary to support gas and water networks. The purpose of this document is to define a standard for the integration of metering systems (MS), which includes traditional manual systems, and (one or two-way) automated meter reading (AMR) systems, and meter data management (MDM) systems with other enterprise systems and business functions within the scope of IEC 61968. The scope of this document is the exchange of information between metering systems, MDM systems and other systems within the utility enterprise. The specific details of communication protocols those systems employ are outside the scope of this document. Instead, this document will recognize and model the general capabilities that can be potentially provided by advanced and/or legacy meter infrastructures, including two-way communication capabilities such as load control, dynamic pricing, outage detection, distributed energy resource (DER) control signals and on-request read. In this way, this document will not be impacted by the specification, development and/or deployment of next generation meter infrastructures either through the use of standards or proprietary means. The focus of IEC 61968-9 is to define standard messages for the integration of enterprise applications, these messages may be directly or indirectly related to information flows within a broader scope. Examples would include messaging between head end systems and meters or PAN devices. The various components described later in this document will typically fall into either the category of a metering system (MS) head end, an MDM or other enterprise application (e.g. OMS, DRMS, CIS). The capabilities and information provided by a meter reading and meter data management systems are important for a variety of purposes, including (but not limited to) interval data, time-based demand data, time-based energy data (usage and production), outage management, service interruption, service restoration, quality of service monitoring, distribution network analysis, distribution planning, demand response, customer billing and work management. This standard also extends the CIM (Common Information Model) to support the exchange of meter data. This third edition cancels and replaces the second edition published in 2013. This edition constitutes a technical revision. Please see the foreword of IEC 61968-9 for further details.

SIST EN IEC 61968-9:2024 is classified under the following ICS (International Classification for Standards) categories: 29.240.30 - Control equipment for electric power systems; 33.200 - Telecontrol. Telemetering; 35.200 - Interface and interconnection equipment. The ICS classification helps identify the subject area and facilitates finding related standards.

SIST EN IEC 61968-9:2024 has the following relationships with other standards: It is inter standard links to SIST EN 61968-9:2014. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.

SIST EN IEC 61968-9:2024 is associated with the following European legislation: Standardization Mandates: M/490. When a standard is cited in the Official Journal of the European Union, products manufactured in conformity with it benefit from a presumption of conformity with the essential requirements of the corresponding EU directive or regulation.

You can purchase SIST EN IEC 61968-9:2024 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 SIST standards.

Standards Content (Sample)


SLOVENSKI STANDARD
01-november-2024
Nadomešča:
SIST EN 61968-9:2014
Vmesniki poslovnih funkcij podjetja za komunalne storitve - 9. del: Vmesniki za
odčitavanje in nadzor števcev (IEC 61968-9:2024)
Enterprise business function interfaces for utility operations - Part 9: Interfaces for meter
reading and control (IEC 61968-9:2024)
Integration von Anwendungen in Anlagen der Elektrizitätsversorgung -
Systemschnittstellen für Netzführung - Teil 9: Zählerfernauslesung und -steuerung (IEC
61968-9:2024)
Intégration d'application pour les services électriques - Interfaces système pour la
gestion de distribution - Partie 9: Interfaces pour le relevé et la commande des
compteurs (IEC 61968-9:2024)
Ta slovenski standard je istoveten z: EN IEC 61968-9:2024
ICS:
29.240.30 Krmilna oprema za Control equipment for electric
elektroenergetske sisteme power systems
35.200 Vmesniška in povezovalna Interface and interconnection
oprema equipment
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EUROPEAN STANDARD EN IEC 61968-9

NORME EUROPÉENNE
EUROPÄISCHE NORM September 2024
ICS 33.200 Supersedes EN 61968-9:2014
English Version
Enterprise business function interfaces for utility operations -
Part 9: Interfaces for meter reading and control
(IEC 61968-9:2024)
Interfaces de fonctions métier d'entreprise pour Integration von Anwendungen in Anlagen der
l'exploitation des services - Partie 9: Interfaces pour le Elektrizitätsversorgung - Systemschnittstellen für
relevé et la commande des compteurs Netzführung - Teil 9: Zählerfernauslesung und -steuerung
(IEC 61968-9:2024) (IEC 61968-9:2024)
This European Standard was approved by CENELEC on 2024-08-22. 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, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the
Netherlands, Norway, Poland, Portugal, Republic of North Macedonia, Romania, Serbia, Slovakia, Slovenia, Spain, Sweden, Switzerland,
Türkiye and the United Kingdom.

European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für Elektrotechnische Normung
CEN-CENELEC Management Centre: Rue de la Science 23, B-1040 Brussels
© 2024 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
Ref. No. EN IEC 61968-9:2024 E

European foreword
The text of document 57/2670/FDIS, future edition 3 of IEC 61968-9, prepared by TC 57 "Power
systems management and associated information exchange" was submitted to the IEC-CENELEC
parallel vote and approved by CENELEC as EN IEC 61968-9:2024.
The following dates are fixed:
• latest date by which the document has to be implemented at national (dop) 2025-05-22
level by publication of an identical national standard or by endorsement
• latest date by which the national standards conflicting with the (dow) 2027-08-22
document have to be withdrawn
This document supersedes EN 61968-9:2014 and all of its amendments and corrigenda (if any).
Attention is drawn to the possibility that some of the elements of this document may be the subject of
patent rights. CENELEC shall not be held responsible for identifying any or all such patent rights.
This document has been prepared under a standardization request addressed to CENELEC by the
European Commission. The Standing Committee of the EFTA States subsequently approves these
requests for its Member States.
Any feedback and questions on this document should be directed to the users’ national committee. A
complete listing of these bodies can be found on the CENELEC website.
Endorsement notice
The text of the International Standard IEC 61968-9:2024 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 standard indicated:
IEC 61968-5:2020 NOTE Approved as EN IEC 61968-5:2020 (not modified)
IEC 61970-552 NOTE Approved as EN 61970-552
IEC 62056 series NOTE Approved as EN 62056 series
IEC 62325-451-10 NOTE Approved as EN IEC 62325-451-10
Annex ZA
(normative)
Normative references to international publications
with their corresponding European publications
The following documents are referred to in the text in such a way that some or all of their content
constitutes requirements of this document. For dated references, only the edition cited applies. For
undated references, the latest edition of the referenced document (including any amendments)
applies.
NOTE 1  Where an International Publication has been modified by common modifications, indicated by (mod),
the relevant EN/HD applies.
NOTE 2  Up-to-date information on the latest versions of the European Standards listed in this annex is available
here: www.cencenelec.eu.
Publication Year Title EN/HD Year
IEC 60050-112 - International Electrotechnical Vocabulary - - -
Part 112: Quantities and units
IEC 60050-300 - International Electrotechnical Vocabulary - - -
Electrical and electronic measurements
and measuring instruments - Part 311:
General terms relating to measurements -
Part 312: General terms relating to
electrical measurements - Part 313: Types
of electrical measuring instruments - Part
314: Specific terms according to the type of
instrument
IEC 61968-1 - Application integration at electric utilities - EN IEC 61968-1 -
System interfaces for distribution
management - Part 1: Interface
architecture and general recommendations
IEC/TS 61968-2 - Application integration at electric utilities - - -
System interfaces for distribution
management -- Part 2: Glossary
IEC 61968-8 2015 Application integration at electric utilities - EN 61968-8 2016
System interfaces for distribution
management - Part 8: Interfaces for
customer operations
IEC 61968-11 - Application integration at electric utilities - EN 61968-11 -
System interfaces for distribution
management - Part 11: Common
information model (CIM) extensions for
distribution
IEC 61968-100 2022 Application integration at electric utilities - EN IEC 61968-100 2022
System interfaces for distribution
management - Part 100: Implementation
profiles
IEC 61970-301 - Energy management system application EN IEC 61970-301 -
program interface (EMS-API) - Part 301:
Common information model (CIM) base
Publication Year Title EN/HD Year
IEC/TR 62051-1 - Electricity metering - Data exchange for - -
meter reading, tariff and load control -
Glossary of terms - Part 1: Terms related
to data exchange with metering equipment
using DLMS/COSEM
ISO 4217 2015 Codes for the representation of currencies - -
ISO 8601 2004 Data elements and interchange formats - - -
Information interchange - Representation
of dates and times
CIM - Meter Reading and Control Profile - -
Messages
IEC 61968-9 ®
Edition 3.0 2024-07
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Enterprise business function interfaces for utility operations –

Part 9: Interfaces for meter reading and control

Interfaces de fonctions métier d'entreprise pour l'exploitation des services –

Partie 9: Interfaces pour le relevé et la commande des compteurs

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
INTERNATIONALE
ICS 33.200  ISBN 978-2-8322-9296-9

– 2 – IEC 61968-9:2024 © IEC 2024
CONTENTS
FOREWORD . 13
INTRODUCTION . 16
1 Scope . 17
2 Normative references . 18
3 Terms, definitions and abbreviated terms . 19
3.1 Terms and definitions. 19
3.2 Abbreviated terms . 21
4 Reference and information models . 21
4.1 General approach to messaging. 21
4.2 General approach to metering systems . 22
4.3 Meter reading and control functions and components . 22
4.4 Static information model . 23
4.4.1 General . 23
4.4.2 Classes for meter reading and control . 24
4.4.3 Classes related to meter reading and control . 26
5 Meter reading and control message types . 27
5.1 General . 27
5.2 End device event messages . 28
5.2.1 General . 28
5.2.2 Applications . 28
5.2.3 Message format . 33
5.3 Meter reading messages . 35
5.3.1 General . 35
5.3.2 Applications . 36
5.3.3 Message formats . 41
5.4 End device control messages. 54
5.4.1 General . 54
5.4.2 Applications . 54
5.4.3 Message format . 61
5.5 Meter service requests . 65
5.5.1 General . 65
5.6 Metering system events . 66
5.6.1 General . 66
5.6.2 Applications – Firmware upgrade . 67
5.6.3 Message formats . 67
5.7 Premises area networks . 67
5.7.1 General . 67
5.7.2 Applications . 68
5.7.3 Message formats . 70
5.8 Master data management messages . 70
5.8.1 General . 70
5.8.2 Applications . 71
5.8.3 Message formats . 74
Annex A (informative) Recommended use of message type verbs . 84
Annex B (informative) Reply error codes . 88
Annex C (normative) Procedure for the generation of a ReadingType name . 89

IEC 61968-9:2024 © IEC 2024 – 3 –
C.1 General . 89
C.2 Understanding the important attributes of a data element name . 89
C.2.1 General . 89
C.2.2 Attribute #1, macroPeriod . 89
C.2.3 Attribute #2, aggregate . 90
C.2.4 Attribute #3, measuringPeriod . 91
C.2.5 Attribute #4, accumulation . 94
C.2.6 Attribute #5, flowDirection . 97
C.2.7 Attribute #6, commodity . 104
C.2.8 Attribute #7, measurementKind . 106
C.2.9 Attribute #8, interharmonicNumerator . 113
C.2.10 Attribute #9, interharmonicDenominator . 113
C.2.11 Attribute #10, argumentNumerator . 114
C.2.12 Attribute #11, argumentDenominator . 114
C.2.13 Attribute #12, tou . 116
C.2.14 Attribute #13, cpp . 116
C.2.15 Attribute #14, consumptionTier . 117
C.2.16 Attribute #15, phases . 118
C.2.17 Attribute #16, multiplier . 122
C.2.18 Attribute #17, unit . 123
C.2.19 Attribute #18, currency . 140
C.3 Using data element attributes to define the ReadingType name –
Construction formula with example ReadingType codes . 140
Annex D (normative) Quality code enumerations . 146
D.1 General . 146
D.2 Identification of the system offering commentary on the data . 146
D.3 Construction . 146
D.4 Quality code system identifier . 146
D.5 Quality code categorization . 147
D.6 Quality code index . 148
D.7 Example quality codes . 158
Annex E (normative) EndDeviceEventType enumerations . 160
E.1 General . 160
E.2 Alarm conditions . 160
E.2.1 General . 160
E.2.2 Clearing alarm conditions and communicating state/condition changes . 160
E.3 Event data . 161
E.4 The 4-Part ID: EndDeviceEventType . 163
E.5 EndDeviceType . 163
E.6 EndDeviceDomain . 165
E.7 EndDeviceSubDomain . 166
E.8 EndDeviceEventOrAction . 172
E.9 Normative EndDeviceEventTypes . 180
Annex F (normative) EndDeviceControlType enumerations . 201
F.1 General . 201
F.2 Normative EndDeviceControlType Enumerations . 201
Annex G (normative) XML schemas for message payloads . 204
G.1 General . 204
G.2 ComModuleConfig . 204

– 4 – IEC 61968-9:2024 © IEC 2024
G.3 EndDeviceConfig . 204
G.4 EndDeviceControls . 204
G.5 EndDeviceEvents . 204
G.6 GetComModuleConfig . 205
G.7 GetEndDeviceConfig . 205
G.8 GetEndDeviceControls . 205
G.9 GetEndDeviceEvents . 205
G.10 GetEndDeviceGroups . 205
G.11 GetMeterConfig . 205
G.12 GetMeterReadings . 205
G.13 GetMeterReadSchedules . 205
G.14 GetUsagePointConfig . 206
G.15 GetUsagePointGroups . 206
G.16 GetUsagePointLocationConfig . 206
G.17 MasterDataLinkageConfig . 206
G.18 MeterConfig . 206
G.19 MeterReadings . 206
G.20 MeterReadSchedules . 206
G.21 UsagePointConfig . 206
G.22 UsagePointGroups . 207
G.23 UsagePointLocationConfig . 207
Annex H (normative) Querying data using Get profiles . 208
H.1 General . 208
H.2 GetMeterReadings . 208
H.3 GetEndDeviceConfig . 209
Annex I (informative) Master data management transaction processing . 211
Annex J (informative) Master data management use cases . 212
J.1 General . 212
J.2 Sample XML for Exemplary Master Data Management use cases . 228
J.2.1 General . 228
J.2.2 Create MeterConfig – Two Meters – Step 1 . 229
J.2.3 Create MeterConfig – Two Meters – Step 2 . 231
J.2.4 Create MeterConfig – Two Meters – Step 3 . 231
J.2.5 Create MeterConfig – Two Meters – Step 4 . 232
J.2.6 Update MeterConfig (add MeterMultipliers, modify formNumber and
ConfigurationEvent) – Step 1 . 233
J.2.7 Update MeterConfig (add MeterMultipliers, modify formNumber and
ConfigurationEvent) – Step 2 . 235
J.2.8 Update MeterConfig (add MeterMultipliers, modify formNumber and
ConfigurationEvent) – Step 3 . 236
J.2.9 UpdateMeterConfig (add MeterMultipliers, modify formNumber and
ConfigurationEvent) – Step 4 . 237
J.2.10 Update MeterConfig (delete details) – Step 1. 238
J.2.11 Update MeterConfig (delete details) – Step 2. 239
J.2.12 Update MeterConfig (delete details) – Step 3. 240
J.2.13 Update MeterConfig (delete details) – Step 4. 241
J.2.14 Delete MeterConfig – Step 1 . 242
J.2.15 Delete MeterConfig – Step 2 . 243
J.2.16 Delete MeterConfig – Step 3 . 244

IEC 61968-9:2024 © IEC 2024 – 5 –
J.2.17 Delete MeterConfig – Step 4 . 245
J.2.18 Create UsagePointConfig – Step 1 . 246
J.2.19 Create UsagePointConfig – Step 2 . 247
J.2.20 Create UsagePointConfig – Step 3 . 247
J.2.21 Create UsagePointConfig – Step 4 . 248
J.2.22 Create MasterDataLinkageConfig – Step 1 . 249
J.2.23 Create MasterDataLinkageConfig – Step 1 . 250
J.2.24 Create MasterDataLinkageConfig – Step 3 . 251
J.2.25 Create MasterDataLinkageConfig – Step 4 . 252
J.2.26 Delete MasterDataLinkageConfig – Step 1 . 253
J.2.27 Delete MasterDataLinkageConfig – Step 2 . 254
J.2.28 Delete MasterDataLinkageConfig – Step 3 . 255
J.2.29 Delete MasterDataLinkageConfig – Step 4 . 256
J.2.30 Execute OperationSet – Step 1 . 256
J.2.31 Execute OperationSet – Step 2 . 258
J.2.32 Execute OperationSet – Step 3 . 259
J.2.33 Execute OperationSet – Step 4 . 259
J.2.34 Change ObjectNamesConfig . 260
Annex K (normative) EUMED Metering UML Model . 261
K.1 EUMED Metering profile and associated European regulation . 261
K.1.1 The EUMED Metering profile . 261
K.1.2 The Associated European regulation . 261
K.2 EUMED Metering global view . 262
K.3 EUMED Metering Entities . 265
K.3.1 General . 265
K.3.2 MeterReadingSet Entity . 265
K.3.3 MeterReading Entity . 265
K.3.4 Meter Entity . 266
K.3.5 Customer Entity . 266
K.3.6 IntervalBlock Entity . 267
K.3.7 IntervalReading Entity . 267
K.3.8 ReadingQuality Entity . 268
K.3.9 UsagePoint Entity . 269
K.3.10 UsagePointLocation Entity . 269
K.3.11 ReadingType Entity . 270
K.3.12 Name Entity . 273
K.3.13 NameType Entity . 273
K.3.14 NameTypeAuthority Entity . 274
K.4 EUMED Metering Datatypes . 275
K.4.1 General . 275
K.4.2 AccumulationKind enumeration Datatype . 276
K.4.3 AggregateKind enumeration Datatype . 277
K.4.4 CommodityKind enumeration Datatype . 278
K.4.5 Currency enumeration Datatype . 279
K.4.6 CustomerKind enumeration Datatype . 282
K.4.7 DateTimeInterval compound Datatype . 283
K.4.8 FlowDirectionKind enumeration Datatype . 283
K.4.9 MacroPeriodKind enumeration Datatype . 285
K.4.10 MeasurementKind enumeration Datatype. 285

– 6 – IEC 61968-9:2024 © IEC 2024
K.4.11 MeasuringPeriodKind enumeration Datatype . 288
K.4.12 PhaseCode enumeration Datatype . 290
K.4.13 RationalNumber compound Datatype . 291
K.4.14 ReadingInterharmonic compound Datatype . 291
K.4.15 UnitMultiplier enumeration Datatype . 291
K.4.16 UnitSymbol enumeration Datatype . 292
Annex L (normative) EUMED Metering XSD schema . 298
L.1 EUMED Metering Entities global view . 298
L.1.1 General . 298
L.1.2 MeterReadingSet Entity . 298
L.1.3 MeterReading Entity . 298
L.1.4 Meter Entity . 299
L.1.5 Customer Entity . 299
L.1.6 IntervalBlock Entity . 300
L.1.7 IntervalReading Entity . 300
L.1.8 ReadingQuality Entity . 301
L.1.9 UsagePoint Entity . 302
L.1.10 UsagePointLocation Entity . 302
L.1.11 ReadingType Entity . 302
L.1.12 Name Entity . 303
L.1.13 NameType Entity . 304
L.1.14 NameTypeAuthority Entity . 304
L.2 EUMED Metering Entities description . 305
L.3 EUMED Metering Datatypes Description . 311
Annex M (informative) Contextualization and examples of EUMED metering messages . 351
M.1 Overview . 351
M.2 EUMED Metering Load Curve message payload . 351
M.3 EUMED Metering Max Power message payload . 352
M.4 EUMED Metering Index message payload . 352
Bibliography . 355

Figure 1 – IEC 61968-9 scope . 18
Figure 2 – Outage Detection, request/reply message exchange, Example 1 . 29
Figure 3 – Outage Detection, request / reply message exchange, Example 2 . 29
Figure 4 – Outage Detection, publish/subscribe exchange, Example 1 . 30
Figure 5 – Outage Detection, publish/subscribe exchange, Example 2 . 31
Figure 6 – Meter Health Event exchange, Example 1 . 32
Figure 7 – Meter Health Event exchange, Example 2 . 32
Figure 8 – Power quality event exchange, Example 1 . 33
Figure 9 – Power quality event exchange, Example 2 . 33
Figure 10 – End device event message format . 34
Figure 11 – EndDeviceEvents example . 35
Figure 12 – Example use of meter read schedule to create subscription . 36
Figure 13 – Example manual meter reading exchange . 37
Figure 14 – Example On-Request meter read . 39
Figure 15 – Historical MeterData exchange . 40

IEC 61968-9:2024 © IEC 2024 – 7 –
Figure 16 – Example billing inquiry message exchange . 40
Figure 17 – Meter readings message format . 41
Figure 18 – Reading structure . 44
Figure 19 – Timestamps assigned between systems . 45
Figure 20 – Conventions for timeStamp and timePeriod . 45
Figure 21 – IntervalBlock structure . 46
Figure 22 – Interval data timestamp generation . 47
Figure 23 – Time interval conventions . 47
Figure 24 – ReadingType structure . 48
Figure 25 – MeterReadings Example 1 . 49
Figure 26 – MeterReadings Example 2 . 50
Figure 27 – Coincident readings example . 51
Figure 28 – Final meter reading coincident with disconnect example . 51
Figure 29 – GetMeterReadings example . 52
Figure 30 – Meter read schedules message format . 53
Figure 31 – Example load control message exchange . 55
Figure 32 – Example message exchange for LC unit installation . 56
Figure 33 – Example message exchange for change of customer program . 57
Figure 34 – Example message exchange for change of customer program w/o MDM . 57
Figure 35 – Example for change of customer program with meter change out . 58
Figure 36 – Example message exchange for meter connect/disconnect . 59
Figure 37 – Example of remote connect/disconnect directly between CIS and MS . 60
Figure 38 – Example message exchange for real-time price signal . 61
Figure 39 – End device controls message format . 62
Figure 40 – EndDevice example . 63
Figure 41 – EndDeviceControl example . 64
Figure 42 – EndDeviceControls disconnect by group example . 64
Figure 43 – EndDeviceControls meter connection example . 65
Figure 44 – Example end device event message exchange due to meter changeout . 66
Figure 45 – Example firmware upgrade message exchange . 67
Figure 46 – Pairing of a PAN device . 68
Figure 47 – PAN device events . 69
Figure 48 – PAN device controls . 70
Figure 49 – Master data linkages . 72
Figure 50 – Message exchange for transferring usage point information . 73
Figure 51 – Message exchange for transferring meter information . 74
Figure 52 – Message exchange for transferring end device information . 74
Figure 53 – MasterDataLinkageConfig message format . 75
Figure 54 – MaterDataLinkageConfig example . 76
Figure 55 – UsagePointConfig message format . 77
Figure 56 – UsagePointConfig example . 78
Figure 57 – UsagePointLocationConfig message format . 79
Figure 58 – UsagePointLocationConfig example . 80

– 8 – IEC 61968-9:2024 © IEC 2024
Figure 59 – End device config message format . 81
Figure 60 – Meter configuration message . 82
Figure 61 – MeterConfig example . 83
Figure 62 – ComModuleConfig message format . 83
Figure C.1 – Typical enumerations for accumulation behaviour . 97
Figure C.2 – Typical enumerations for direction of flow . 104
Figure C.3 – Voltage measurements . 113
Figure E.1 – Event data . 162
Figure E.2 – Multiple EndDeviceEventDetails Example 1 . 162
Figure E.3 – EndDeviceEventDetails example 2 . 163
Figure E.4 – EndDeviceEvent Example 3 . 163
Figure H.1 – GetMeterReadings . 209
Figure H.2 – GetMeterConfig . 210
Figure J.1 – Create MeterConfig – Two Meters – Step 1 . 230
Figure J.2 – Create MeterConfig – Two Meters – Step 2 . 231
Figure J.3 – Create MeterConfig – Two Meters – Step 3 . 232
Figure J.4 – Create MeterConfig – Two Meters – Step 4 . 233
Figure J.5 – Create MeterConfig – Update MeterConfig (add MeterMultiplies, modify
formNumber and ConfigurationEvent) Step 1 . 234
Figure J.6 – Update MeterConfig (add MeterMultiplies, modify formNumber and
ConfigurationEvent) Step 2 . 235
Figure J.7 – Update MeterConfig (add MeterMultiplies, modify formNumber and
ConfigurationEvent) Step 3 . 236
Figure J.8 – Update MeterConfig (add MeterMultiplies, modify formNumber and
ConfigurationEvent) Step 4 . 237
Figure J.
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SIST EN IEC 61968-9:2024は、ユーティリティ運営における企業ビジネス機能インターフェースに関する標準であり、特にメーター読み取りと制御のためのインターフェースに焦点を当てています。この標準は、メーター読み取りや制御、イベント、顧客データの同期および顧客切り替えなどに関連するビジネス機能をサポートするために使用されるメッセージタイプの情報内容を仕様しています。 この文書の目的は、従来の手動システムや(一方向または双方向)自動メーター読み取り(AMR)システム、メーターデータ管理(MDM)システムを含むメーターシステム(MS)の統合に関する標準を定義することにあります。また、ユーティリティ企業内の他のシステムとの情報交換の範囲を定めています。この標準仕様は、コミュニケーションプロトコルの具体的な詳細を扱うものではありませんが、高度なまたは従来のメーターインフラの潜在的な能力を認識し、モデル化します。 IEC 61968-9の重要な点は、企業アプリケーションの統合のための標準メッセージを定義することにあります。このメッセージは、広範な範囲内での情報フローに関連し、直接的または間接的に結びついています。様々なコンポーネントは、メーターシステム(MS)ヘッドエンド、MDM、またはその他の企業アプリケーション(例:OMS、DRMS、CIS)に分類されることが通常です。 また、メーター読み取りおよびメーターデータ管理システムによって提供される能力と情報は、インターバルデータや時間ベースの需要データ、エネルギー使用および生産データ、停電管理、サービス中断、サービス回復、サービス品質の監視、配電ネットワーク分析、配電計画、需要応答、顧客請求、作業管理など、さまざまな目的にとって重要です。この標準は、メーターデータの交換をサポートするためにCIM(コモン情報モデル)を拡張しています。 この第三版は、2013年に発行された第二版をキャンセルし、置き換えるもので、技術的改訂を含んでいます。さらなる詳細については、IEC 61968-9の前書きを参照してください。標準の適用は、電気配電網に主に意図されていますが、ガスや水道ネットワークを支えるために必要な非電気メータリングアプリケーションにも使用可能です。このように、IEC 61968-9は、ユーティリティ業界におけるメーターのインフラストラクチャの進化に対して柔軟に対応できる基盤を提供しています。

The SIST EN IEC 61968-9:2024 standard provides a comprehensive framework for the integration of meter reading and control functions within utility operations. Its scope encompasses a wide range of business functions associated with meter reading, control mechanisms, event management, customer data synchronization, and customer switching. While primarily designed for electrical distribution networks, its applicability extends to other metering applications within gas and water network operations, making it a versatile addition to utility management systems. A notable strength of the IEC 61968-9:2024 standard is its ability to facilitate the exchange of information between various metering systems, Meter Data Management (MDM) systems, and overarching enterprise applications. By standardizing message types, the document enables efficient communication between head-end systems and various metering devices, thereby enhancing interoperability across different infrastructures, including both traditional manual and automated systems. This approach ensures that even legacy metering infrastructures can easily integrate with next-generation technologies, a significant advantage in a rapidly evolving utility sector. Furthermore, the standard models general capabilities associated with advanced metering infrastructures, such as two-way communication for load control, dynamic pricing, outage detection, and distributed energy resource management. It simplifies the integration of these functions by promoting standard messages that support information flows within broader enterprise systems, which is crucial for optimizing operational efficiency and improving customer services. In terms of relevance, the capabilities underscored by IEC 61968-9:2024 meet critical utility management needs. The standard supports various operational purposes, including the collection of interval data, management of service interruptions, quality of service monitoring, distribution network analysis, and demand response, among others. By extending the Common Information Model (CIM) to encompass meter data exchange, it enhances the robustness of data systems within utility enterprises. Overall, the IEC 61968-9:2024 standard is an essential resource for utilities seeking to streamline operations, integrate diverse metering technologies, and respond effectively to evolving market demands within the metering landscape.

SIST EN IEC 61968-9:2024 표준은 유틸리티 운영을 위한 기업 비즈니스 기능 인터페이스에 관한 명확한 지침을 제공하며, 특히 미터 기록 및 제어에 중점을 두고 있습니다. 이 표준의 범위는 미터 읽기 및 제어와 관련된 비즈니스 기능을 지원하는 데 필요한 메시지 유형 세트의 정보 내용을 명기하고 있습니다. 이를 통해 미터 읽기, 제어, 이벤트 관리, 고객 데이터 동기화 및 고객 전환 같은 다양한 작업을 효율적으로 수행할 수 있게 됩니다. 주목할 만한 강점 중 하나는 이 표준이 전통적인 수동 시스템과 (한 방향 또는 양방향) 자동 미터 읽기(AMR) 시스템, 미터 데이터 관리(MDM) 시스템을 포함한 미터링 시스템의 통합을 위한 프레임워크를 제공한다는 점입니다. 이는 특히 전기 배급 네트워크를 염두에 두고 있지만, 가스 및 물 네트워크를 지원하는 비전기 메터링 응용 프로그램에도 활용될 수 있습니다. 이와 같은 포괄적인 적용 가능성은 산업의 다양성을 반영하고 있습니다. IEC 61968-9의 초점은 기업 응용 프로그램의 통합을 위한 표준 메시지를 정의하는 것에 있으며, 이러한 메시지는 더 넓은 범위 내의 정보 흐름과 직접적 또는 간접적으로 관련될 수 있습니다. 이 표준은 미터링 시스템(MS) 헤드 엔드, MDM 또는 기타 기업 응용 프로그램 간의 상호 작용을 촉진하여, 운영의 효율성을 높이고 데이터 흐름을 원활하게 합니다. 또한, 이 표준에서 제공하는 미터 읽기 및 미터 데이터 관리 시스템의 기능과 정보는 간헐적 데이터, 시간 기반 수요 데이터, 서비스 중단 및 복구, 품질 모니터링과 같은 다양한 목적으로 필요합니다. 특히, CIM(공통 정보 모델)을 확장하여 미터 데이터의 교환을 지원하는 점은 비즈니스 기능을 효율적으로 연결하는 데 중요한 역할을 합니다. 이번 제3판은 2013년에 발행된 제2판을 취소하고 대체하며, 기술적으로 개정된 내용을 포함하고 있습니다. 따라서 유틸리티 산업이 변화하는 환경에 맞추어 필요한 요구 사항을 충족할 수 있도록 도와주는 기반을 마련하고 있습니다.

Le document SIST EN IEC 61968-9:2024 se révèle être une ressource essentielle pour l'intégration des systèmes de comptage dans le secteur des services publics. Son champ d'application est clairement défini, se concentrant sur l'échange d'informations entre les systèmes de comptage, les systèmes de gestion des données de comptage (MDM) et d'autres systèmes au sein de l'entreprise de services publics. Cette portée est particulièrement pertinente pour les opérations liées à la lecture des compteurs et au contrôle, notamment dans les réseaux de distribution électrique, mais elle s'étend également à d'autres applications de comptage, comme le gaz et l'eau. Les points forts de cette norme incluent sa capacité à standardiser les messages liés aux fonctions métiers des services publics. En spécifiant le contenu d'un ensemble de types de messages, la norme permet une intégration harmonieuse des systèmes de comptage traditionnels et automatisés, tout en prenant en compte les infrastructures de mesure avancées et héritées. Cela inclut des capacités de communication bidirectionnelles qui sont cruciales pour des fonctionnalités telles que le contrôle de charge, la tarification dynamique, et la gestion des pannes. Un autre aspect notoire de la norme IEC 61968-9 est son modèle de communication qui vise à simplifier l'interopérabilité entre différents systèmes d'entreprise, ce qui est fondamental pour le bon fonctionnement des opérations utilitaires modernes. En outre, l’extension du Modèle d’Information Commun (CIM) pour soutenir l’échange de données de compteurs démontre l'engagement de la norme à s'assurer qu'elle reste pertinente face à l'évolution technologique. De plus, le fait que cette troisième édition remplace la deuxième édition de 2013 indique un processus continu de révision technique, soulignant la volonté d'adapter et d'améliorer les exigences d'intégration au fil du temps. En résumé, la norme SIST EN IEC 61968-9:2024 est un outil précieux qui renforce l'efficacité opérationnelle des services publics en standardisant les interfaces entre les fonctions commerciales et les systèmes de comptage, tout en répondant aux besoins diversifiés de l'industrie.

Die SIST EN IEC 61968-9:2024 ist ein bedeutendes Dokument, das sich mit der Standardisierung von Unternehmensgeschäftsfunktionen für Versorgungsbetriebe befasst, insbesondere im Kontext von Schnittstellen für die Ablesung und Steuerung von Zählern. Dieses Dokument legt den Schwerpunkt auf die Informationsinhalte einer Reihe von Nachrichtentypen, die zahlreiche geschäftliche Funktionen im Zusammenhang mit der Ablesung und Kontrolle von Zählern unterstützen. Ein zentraler Vorteil dieser Norm liegt in ihrer weitreichenden Anwendbarkeit. Sie ist primär für elektrische Verteilernetze konzipiert, kann jedoch auch auf andere Messanwendungen ausgedehnt werden, die für Gas- und Wassernetze erforderlich sind. Damit wird sichergestellt, dass die Standardisierung nicht nur auf einen einzelnen Bereich beschränkt ist, sondern auf eine Vielzahl von Versorgungsnetzen anwendbar ist, was ihre Relevanz erheblich steigert. Die SIST EN IEC 61968-9:2024 definiert eine Standardschnittstelle, die die Integration von Ablesesystemen, die sowohl traditionelle manuelle als auch automatisierte Zählsysteme (AMR) und Systeme zur Verwaltung von Zählerdaten (MDM) umfasst, sowie deren Austausch mit anderen Unternehmenssystemen und Geschäftsfunktionen ermöglicht. Die Norm ermöglicht die Informationstransmission zwischen verschiedenen Systemen und trägt somit zur Effizienzsteigerung und Automatisierung von Versorgungsoperationen bei. Ein weiterer Stärke dieser Norm ist die Flexibilität, die sie bei der Unterstützung von fortschrittlichen und legacy Zählerinfrastrukturen bietet. Durch die Modellierung allgemeiner Fähigkeiten von Zählern, einschließlich bidirektionaler Kommunikationsfähigkeiten wie Laststeuerung, dynamische Preisgestaltung und Störungserkennung, nimmt das Dokument eine zukunftsorientierte Perspektive ein. Dies unterstreicht die Bedeutung der Norm, da sie auf die sich ständig weiterentwickelnde Technologie im Bereich der Zählerinfrastruktur reagiert. Zusätzlich wird die Norm IEC 61968-9 durch die Erweiterung des CIM (Common Information Model) für den Austausch von Zählerdaten unterstützt, was ihre Anwendbarkeit und Kompatibilität mit bestehenden Systemen weiter verbessert. Die Vielfalt der bereitgestellten Informationen, die von Intervall- und zeitbasierten Nachfragedaten bis hin zu Qualitätsüberwachungen und Abrechnungen reicht, zeigt die umfassenden Anwendungsfälle und die Notwendigkeit dieser Standardisierung. Insgesamt bietet die SIST EN IEC 61968-9:2024 eine klare und umfassende Richtlinie für die Integration von Messsystemen in Unternehmensanwendungen und stellt damit eine unverzichtbare Ressource für die Versorgungsbranche dar.