SIST EN IEC 63380-1:2025

SLOVENSKI STANDARD
01-julij-2025
Standardni vmesnik za povezovanje polnilnih postaj z lokalnimi sistemi za
upravljanje energije - 1. del: Splošne zahteve, primeri uporabe in abstraktna
sporočila (IEC 63380-1:2025)
Standard interface for connecting charging stations to local energy management
systems - Part 1: General requirements, use cases and abstract messages
(IEC 63380-1:2025)
Standardschnittstelle für das Verbinden von Ladestationen an lokale
Energiemanagementsysteme - Teil 1: Allgemeine Anforderungen, Anwendungsfälle und
abstrakte Nachrichten (IEC 63380-1:2025)
Interface normalisée pour la connexion des bornes de charge aux systèmes locaux de
gestion de l’énergie – Partie 1 : Exigences générales, cas d’utilisation et messages
abstraits (IEC 63380-1:2025)
Ta slovenski standard je istoveten z: EN IEC 63380-1:2025
ICS:
29.240.99 Druga oprema v zvezi z Other equipment related to
omrežji za prenos in power transmission and
distribucijo električne energije distribution networks
43.120 Električna cestna vozila Electric road vehicles
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.

EUROPEAN STANDARD EN IEC 63380-1

NORME EUROPÉENNE
EUROPÄISCHE NORM May 2025
ICS 29.240.99; 43.120
English Version
Standard interface for connecting charging stations to local
energy management systems - Part 1: General requirements,
use cases and abstract messages
(IEC 63380-1:2025)
Interface normalisée pour la connexion des bornes de Standardschnittstelle für das Verbinden von Ladestationen
charge aux systèmes locaux de gestion de l'énergie - Partie an lokale Energiemanagementsysteme - Teil 1: Allgemeine
1 : Exigences générales, cas d'utilisation et messages Anforderungen, Anwendungsfälle und abstrakte
abstraits Nachrichten
(IEC 63380-1:2025) (IEC 63380-1:2025)
This European Standard was approved by CENELEC on 2025-05-22. 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
© 2025 CENELEC All rights of exploitation in any form and by any means reserved worldwide for CENELEC Members.
Ref. No. EN IEC 63380-1:2025 E

European foreword
The text of document 69/1036/FDIS, future edition 1 of IEC 63380-1, prepared by TC 69 "Electrical
power/energy transfer systems for electrically propelled road vehicles and industrial trucks" was
submitted to the IEC-CENELEC parallel vote and approved by CENELEC as EN IEC 63380-1:2025.
The following dates are fixed:
• latest date by which the document has to be implemented at national (dop) 2026-05-31
level by publication of an identical national standard or by endorsement
• latest date by which the national standards conflicting with the (dow) 2028-05-31
document have to be withdrawn
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 63380-1:2025 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 63110-1:2022 NOTE Approved as EN IEC 63110-1:2022 (not modified)
ISO 15118-20:2022 NOTE Approved as EN ISO 15118-20:2022 (not modified)
IEC 63110 series NOTE Approved as EN IEC 63110 series
IEC 63119 series NOTE Approved as EN IEC 63119 series
IEC 63380 series NOTE Approved as EN IEC 63380 series
ISO 15118 series NOTE Approved as EN ISO 15118 series
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 61851-1 2017 Electric vehicle conductive charging EN IEC 61851-1 2019
system - Part 1: General requirements
ISO 15118-2 2014 Road vehicles - Vehicle-to-grid EN ISO 15118-2 2016
communication interface - Part 2: Network
and application protocol requirements
ISO 15118-20 2022 Road vehicles - Vehicle to grid EN ISO 15118-20 2022
communication interface - Part 20: 2nd
generation network layer and application
layer requirements
IEC 63380-1 ®
Edition 1.0 2025-04
INTERNATIONAL
STANDARD
NORME
INTERNATIONALE
Standard interface for connecting charging stations to local energy management

systems –
Part 1: General requirements, use cases and abstract messages

Interface normalisée pour la connexion des bornes de charge aux systèmes

locaux de gestion de l’énergie –

Partie 1 : Exigences générales, cas d’utilisation et messages abstraits

INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
COMMISSION
ELECTROTECHNIQUE
INTERNATIONALE
ICS 29.240.99, 43.120 ISBN 978-2-8327-0343-4

– 2 – IEC 63380-1:2025 © IEC 2025
CONTENTS
FOREWORD . 13
INTRODUCTION . 15
1 Scope . 17
2 Normative references . 17
3 Terms, definitions, and abbreviated terms . 17
3.1 Terms and definitions . 17
3.2 Abbreviated terms. 19
4 Scenarios and user stories . 20
4.1 General . 20
4.2 Stakeholders . 21
4.3 User stories . 21
4.4 Use case actors. 23
4.4.1 General. 23
4.4.2 Charging station . 23
4.4.3 Energy management system (EMS) . 23
4.4.4 Electric vehicle (EV) . 24
4.5 Mapping of user stories to use cases . 24
5 Technical use cases . 25
5.1 Overview . 25
5.1.1 General. 25
5.1.2 Wording . 25
5.1.3 Reading the graphics . 26
5.2 Charging station commissioning and configuration . 26
5.2.1 General. 26
5.2.2 Scenario overview . 26
5.2.3 Scenario implementation requirements . 27
5.2.4 Scenario details . 27
5.2.5 Scenarios and use case functions . 28
5.3 Coordinated EV charging . 29
5.3.1 General. 29
5.3.2 Scenario overview . 30
5.3.3 Scenario implementation requirements . 31
5.3.4 Scenario flow. 32
5.3.5 Scenario details . 33
5.3.6 Scenarios and use case functions . 42
5.3.7 Dependencies to other use cases . 42
5.4 EV charging electricity measurement . 43
5.4.1 General. 43
5.4.2 Scenario overview . 43
5.4.3 Scenario implementation requirements . 44
5.4.4 Scenario details . 44
5.4.5 Scenarios and use case functions . 46
5.4.6 Dependencies to other use cases . 46
5.5 EV charging summary . 46
5.5.1 General. 46
5.5.2 Scenario overview . 47

IEC 63380-1:2025 © IEC 2025 – 3 –
5.5.3 Scenario implementation requirements . 47
5.5.4 Scenario details – Scenario 1 – EMS sends charging session summary
to charging station . 47
5.5.5 Scenarios and use case functions . 48
5.5.6 Dependencies to other use cases . 48
5.6 EV commissioning and configuration . 49
5.6.1 General. 49
5.6.2 Scenario overview . 49
5.6.3 Scenario implementation requirements . 50
5.6.4 Scenario details . 51
5.6.5 Scenarios and use case functions . 56
5.6.6 Dependencies to other use cases . 56
5.7 EV state of charge . 56
5.7.1 General. 56
5.7.2 Scenario overview . 57
5.7.3 Scenario implementation requirements . 57
5.7.4 Scenario details : Scenario 1 – Monitor EV's state of charge . 57
5.7.5 Scenarios and use case functions . 58
5.8 Limitation of active power consumption . 58
5.8.1 General. 58
5.8.2 Detailed background information and rules . 59
5.8.3 State machine . 62
5.8.4 Scenario overview . 64
5.8.5 Scenario implementation requirements . 65
5.8.6 Scenario details . 65
5.8.7 Scenarios and use case functions . 69
5.8.8 Dependencies to other use cases . 69
5.8.9 Further information and rules . 69
5.9 Monitoring of active power consumption . 70
5.9.1 General. 70
5.9.2 Scenario overview . 70
5.9.3 Scenario implementation requirements . 71
5.9.4 Scenario details . 71
5.9.5 Scenarios and use case functions . 74
5.10 Optimization of self-consumption during EV charging . 75
5.10.1 General. 75
5.10.2 Scenario overview . 75
5.10.3 Scenario implementation requirements . 75
5.10.4 Scenario details . 76
5.10.5 Dependencies to other use cases . 78
5.11 Overload protection by EV charging current curtailment . 79
5.11.1 General. 79
5.11.2 Derivation of the time limits for the involved units . 79
5.11.3 Further information. 80
5.11.4 Scenario overview . 80
5.11.5 Scenario implementation requirements . 80
5.11.6 Scenario details . 81
5.11.7 Scenarios and use case functions . 82
5.11.8 Dependencies to other use cases . 83

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5.12 Basic EV charging/discharging . 84
5.12.1 General. 84
5.12.2 Scenario overview . 84
5.12.3 Scenario implementation requirements . 85
5.12.4 Scenario details . 85
5.12.5 Scenarios and use case functions . 88
5.12.6 Dependencies to other use cases – EV commissioning and
configuration . 88
5.13 Dynamic bidirectional EV charging . 89
5.13.1 General. 89
5.13.2 Dynamic mode . 90
5.13.3 Scenario overview . 90
5.13.4 Scenario implementation requirements . 91
5.13.5 Scenarios and use case functions . 91
5.13.6 Scenarios and use case functions . 96
5.13.7 Dependencies to other use cases . 97
5.13.8 Further information and rules . 97
6 Generic use case functions (UCF) . 98
6.1 General . 98
6.2 Concepts . 98
6.3 UCF_AC_Measurement ─ Generic description . 98
6.3.1 General. 98
6.3.2 Measurement . 100
6.3.3 Electrical connection data . 107
6.4 UCF_Characteristics ─ Generic description . 112
6.4.1 General. 112
6.4.2 Characteristics. 113
6.5 UCF_Charging_Power_Limits ─ Generic description . 113
6.5.1 General. 113
6.5.2 Electrical connection parameters . 114
6.5.3 Electrical connection permitted values . 114
6.6 UCF_Consumption_Curve ─ Generic description . 115
6.6.1 General. 115
6.6.2 Consumption curve . 116
6.7 UCF_Device_Configuration ─ Generic description . 120
6.7.1 General. 120
6.7.2 Device configuration – Key value description . 121
6.7.3 Device configuration data . 121
6.7.4 Write device configuration data . 122
6.8 UCF_Device_State ─ Generic description . 123
6.8.1 General. 123
6.8.2 Device state . 124
6.9 UCF_EV_Connected ─ Generic description . 125
6.9.1 General. 125
6.9.2 Information content . 125
6.10 UCF_Heartbeat ─ Generic description . 125
6.10.1 General. 125
6.10.2 Heartbeat . 126
6.11 UCF_Identification ─ Generic description . 126

IEC 63380-1:2025 © IEC 2025 – 5 –
6.11.1 General. 126
6.11.2 Identification . 126
6.12 UCF_Incentive_Table ─ Generic description . 127
6.12.1 General. 127
6.12.2 Incentive table . 128
6.12.3 Write incentive table . 132
6.13 UCF_Load_Control ─ Generic description . 135
6.13.1 General. 135
6.13.2 Load constraints . 136
6.14 UCF_Manufacturer_Information ─ Generic description . 138
6.14.1 General. 138
6.14.2 Manufacturer data . 138
6.15 UCF_Maximum_Power_Limitation_Curve ─ Generic description . 139
6.15.1 General. 139
6.15.2 Maximum power limitation curve . 140
6.15.3 Update maximum power limitation curve ─ Time series data . 142
6.16 UCF_Measurement ─ Generic description . 142
6.16.1 General. 142
6.16.2 Measurement . 143
6.17 UCF_Power_Limit . 144
6.17.1 Generic description . 144
6.17.2 Additional information . 146
6.18 UCF_Operation_Mode ─ Generic description . 146
6.18.1 General. 146
6.18.2 Current operation mode ─ Operation mode description . 147
6.18.3 Send operation mode ─ Operation mode description . 147
6.19 UCF_Session_Summary ─ Generic description . 147
6.19.1 General. 147
6.19.2 Session summary. 148
6.19.3 Session summary write ─ Charging summary data . 150
6.20 UCF_Setpoint ─ Generic description. 151
6.20.1 General. 151
6.20.2 Setpoint . 152
Bibliography . 154

Figure 1 – Overview of the IEC 63380 series . 20
Figure 2 – Communication scope of the IEC 63380 series . 21
Figure 3 – Sources of information for an EMS. 24
Figure 4 – Charging station commissioning and configuration – High-level use case
functionality overview. 26
Figure 5 – Charging station commissioning and configuration – Scenario overview . 26
Figure 6 – Charging station commissioning and configuration – Scenario 1 overview . 27
Figure 7 – Charging station commissioning and configuration – Scenario 2 overview . 28
Figure 8 – Coordinated EV charging – High-level use case functionality overview . 29
Figure 9 – Charging session example . 30
Figure 10 – Coordinated EV charging – Scenario overview . 31
Figure 11 – Coordinated EV charging – Scenario flow . 32

– 6 – IEC 63380-1:2025 © IEC 2025
Figure 12 – Energy demand example . 33
Figure 13 – Maximum power limitation curve example . 35
Figure 14 – Incentive table example with consideration of the P curve from
max
scenario 2. 37
Figure 15 – Incentive table example (single incentive slot) for different tiers . 38
Figure 16 – Charging plan curve example . 39
Figure 17 – EV Charging electricity measurement – High-level use case functionality
overview . 43
Figure 18 – EV charging electricity measurement – Scenario overview. 44
Figure 19 – EV charging current overview . 44
Figure 20 – EV charging power overview . 45
Figure 21 – EV charged energy overview . 45
Figure 22 – EV charging summary – High-level use case functionality overview . 47
Figure 23 – EV charging summary – Scenario overview . 47
Figure 24 – Charging session summary . 48
Figure 25 – EV commissioning and configuration – High-level use case functionality
overview . 49
Figure 26 – EV commissioning and configuration – Scenario overview . 50
Figure 27 – EV commissioning and configuration – Scenario 1 overview . 51
Figure 28 – EV commissioning and configuration – Scenario 2 overview . 52
Figure 29 – EV commissioning and configuration – Scenario 3 overview . 53
Figure 30 – EV Commissioning and Configuration – Scenario 4 overview . 53
Figure 31 – EV commissioning and configuration – Scenario 5 overview . 54
Figure 32 – EV commissioning and configuration – Scenario 6 overview . 55
Figure 33 – EV commissioning and configuration – Scenario 7 overview . 55
Figure 34 – EV commissioning and configuration – Scenario 8 overview . 56
Figure 35 – EV state of charge – High-level use case functionality overview . 57
Figure 36 – EV state of charge – Scenario overview. 57
Figure 37 – Monitor EV's state of charge. 57
Figure 38 – Limitation of active power consumption – High-level use case functionality
overview . 59
Figure 39 – State machine after connection establishment . 63
Figure 40 – Limitation of active power consumption – Scenario overview . 65
Figure 41 – Monitoring of active power consumption – High-level use case functionality
overview . 70
Figure 42 – Monitoring of active power consumption – Scenario overview . 71
Figure 43 – Optimization of self-consumption during EV charging – High-level use case
functionality overview. 75
Figure 44 – Optimization of self-consumption during EV Charging – Scenario overview . 75
Figure 45 – Optimization of self-consumption during EV charging – Scenario 1
overview . 76
Figure 46 – Overload protection by EV charging current curtailment – High-level use
case functionality overview . 79
Figure 47 – Overload protection by EV charging current curtailment – Scenario
overview . 80

IEC 63380-1:2025 © IEC 2025 – 7 –
Figure 48 – Overload protection by EV charging current curtailment – Scenario 1
overview . 81
Figure 49 – Example for asymmetric versus symmetric charging curtailment . 81
Figure 50 – Basic EV charging/discharging – High-level use case functionality overview . 84
Figure 51 – Basic EV charging/discharging – Scenario overview . 85
Figure 52 – Basic EV charging/discharging – Scenario 1 overview . 86
Figure 53 – EMS monitors EV's state of charge – Scenario 2 overview . 86
Figure 54 – Basic EV Charging/Discharging – Scenario 3 overview . 87
Figure 55 – Basic EV charging/discharging – Scenario 4 overview . 87
Figure 56 – Basic EV Charging/Discharging – Scenario 5 overview . 88
Figure 57 – Dynamic bidirectional EV charging – High-level use case functionality

overview . 90
Figure 58 – Dynamic bidirectional EV charging – Scenario overview . 91
Figure 59 – Example of energy request dependencies . 94
Figure 60 ─ Messaging sequence for UCF_AC_Measurement . 99
Figure 61 – Messaging sequence for UCF_Characteristics . 112
Figure 62 – Messaging sequence for UCF_Charging_Power_Limits . 114
Figure 63 – Messaging sequence for UCF_Consumption_Curve . 115
Figure 64 – Messaging sequence for UCF_Device_Configuration . 120
Figure 65 – Messaging sequence for UCF_Device_State . 123
Figure 66 – Messaging sequence for UCF_Heartbeat . 125
Figure 67 – Messaging sequence for UCF_Identification. 126
Figure 68 – Messaging sequence for UCF_Incentive_Table . 127
Figure 69 – Messaging sequence for UCF_Load_Control . 135
Figure 70 – Messaging sequence for UCF_ Manufacturer_Information . 138
Figure 71 – Messaging sequence for UCF_ Maximum_Power_Limitation_Curve . 139
Figure 72 – Messaging sequence for UCF_Measurement . 142
Figure 73 – Messaging sequence for UCF_Power_Limit . 144
Figure 74 – Messaging sequence for UCF_Operation_Mode . 146
Figure 75 – Messaging sequence for UCF_Session_Summary . 148
Figure 76 – Messaging sequence for UCF_Setpoint . 151

Table 1 – User stories . 22
Table 2 – Mapping of user stories to use cases . 25
Table 3 – Presence indication description . 26
Table 4 – Charging station commissioning and configuration – Scenario
implementation requirements for actors . 27
Table 5 – Charging station commissioning and configuration – Scenarios and primary
use case functions (UCFs) . 28
Table 6 – Coordinated EV charging – Scenario implementation requirements for actors . 31
Table 7 – Coordinated EV charging – Scenarios and primary use case functions

(UCFs) . 42
Table 8 – EV charging electricity measurement – Scenario implementation
requirements for actors . 44

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Table 9 – EV charging electricity measurement – Scenarios and primary use case
functions (UCFs) . 46
Table 10 – EV charging summary – Scenario implementation requirements for actors . 47
Table 11 – EV charging summary – Scenarios and primary use case functions (UCFs) . 48
Table 12 – EV commissioning and configuration – Scenario implementation
requirements for actors . 51
Table 13 – EV commissioning and configuration – Scenarios and primary use case
functions (UCFs) . 56
Table 14 – EV state of charge – Scenario implementation requirements for actors . 57
Table 15 – EV state of charge – Scenarios and primary use case functions (UCFs) . 58
Table 16 – Charging station power limitation behaviour . 59
Table 17 – Limitation of active power consumption – Scenario implementation
requirements for actors . 65
Table 18 – Scenario 1 – Control active power consumption limit – Data point list . 66
Table 19 – Scenario 2 – Failsafe values – Data point list . 67
Table 20 – Scenario 3 – Heartbeat – Data point list. 68
Table 21 – Scenario 4 – Constraints – Data point list . 68
Table 22 – Limitation of active power consumption – Scenarios and primary use case
functions (UCFs) . 69
Table 23 – Monitoring of active power consumption – Scenario implementation
requirements for actors . 71
Table 24 – Scenario 1 – Monitor power consumption – Data point list . 72
Table 25 – Scenario 2 – Monitor consumed energy – Data point list. 72
Table 26 – Scenario 3 – Monitor current – Data point list . 73
Table 27 – Scenario 4 – Monitor voltage – Data point list. 73
Table 28 – Scenario 5 – Monitor frequency – Data point list . 74
Table 29 – Monitoring of active power consumption – Scenarios and primary use case
functions (UCFs) . 74
Table 30 – Optimization of self-consumption during EV charging – Scenario
implementation requirements for actors . 76
Table 31 – Optimization of self-consumption during EV charging – Scenarios and
primary use case functions (UCFs) . 78
Table 32 – Overload protection by EV charging current curtailment – Scenario
implementation requirements for actors . 81
Table 33 – Overload protection by EV charging current curtailment – Scenarios and
primary use case functions (UCFs) . 83
Table 34 – Basic EV charging/discharging – Scenario implementation requirements for
actors . 85
Table 35 – Basic EV charging/discharging – Scenarios and primary use case functions
(UCFs) . 88
Table 36 – Dynamic bidirectional EV charging – Scenario implementation requirements
for actors . 91
Table 37 – Scenario 1 – Control active power setpoint – Data point list . 92
Table 38 – Scenario 2 – Monitor energy requests – Data point list . 95
Table 39 – Scenario 3 – Monitor constraints – Data point list . 95
Table 40 – Scenario 4 – Configuration parameters – Data point list . 96
Table 41 – Dynamic bidirectional EV charging – Scenarios and primary use case
functions (UCFs) . 96

IEC 63380-1:2025 © IEC 2025 – 9 –
Table 42 – Information content for measurement description at actor charging station
for power (use case "monitoring of active power consumption") . 100
Table 43 – Information content for measurement description at actor charging station

for power (use case "ev charging electricity measurement") . 100
Table 44 – Information content for measurement constraints at actor charging station
for power (use cases "monitoring of active power consumption" and "EV charging
electricity measurement") . 101
Table 45 – Information content for measurement data at actor charging station for
power (use case "monitoring of active power consumption") .
...