IEC 61850-5-2013 Communication networks and systems for power utility automation - Part 5 Communication requirements for functions and device models《变电所的通信网络和系统.第5部分 功能和设备模型的通信要求》.pdf

1、 IEC 61850-5 Edition 2.0 2013-01 INTERNATIONAL STANDARD NORME INTERNATIONALE Communication networks and systems for power utility automation Part 5: Communication requirements for functions and device models Rseaux et systmes de communication pour lautomatisation des systmes lectriques Partie 5: Exi

2、gences de communication pour les modles de fonctions et dappareils IEC61850-5:2013 colourinsideTHIS PUBLICATION IS COPYRIGHT PROTECTED Copyright 2013 IEC, Geneva, Switzerland All rights reserved. Unless otherwise specified, no part of this publication may be reproduced or utilized in any form or by

3、any means, electronic or mechanical, including photocopying and microfilm, without permission in writing from either IEC or IECs member National Committee in the country of the requester. If you have any questions about IEC copyright or have an enquiry about obtaining additional rights to this publi

4、cation, please contact the address below or your local IEC member National Committee for further information. Droits de reproduction rservs. Sauf indication contraire, aucune partie de cette publication ne peut tre reproduite ni utilise sous quelque forme que ce soit et par aucun procd, lectronique

5、ou mcanique, y compris la photocopie et les microfilms, sans laccord crit de la CEI ou du Comit national de la CEI du pays du demandeur. Si vous avez des questions sur le copyright de la CEI ou si vous dsirez obtenir des droits supplmentaires sur cette publication, utilisez les coordonnes ci-aprs ou

6、 contactez le Comit national de la CEI de votre pays de rsidence. IEC Central Office Tel.: +41 22 919 02 11 3, rue de Varemb Fax: +41 22 919 03 00 CH-1211 Geneva 20 infoiec.ch Switzerland www.iec.ch About the IEC The International Electrotechnical Commission (IEC) is the leading global organization

7、that prepares and publishes International Standards for all electrical, electronic and related technologies. About IEC publications The technical content of IEC publications is kept under constant review by the IEC. Please make sure that you have the latest edition, a corrigenda or an amendment migh

8、t have been published. Useful links: IEC publications search - www.iec.ch/searchpub The advanced search enables you to find IEC publications by a variety of criteria (reference number, text, technical committee,). It also gives information on projects, replaced and withdrawn publications. IEC Just P

9、ublished - webstore.iec.ch/justpublished Stay up to date on all new IEC publications. Just Published details all new publications released. Available on-line and also once a month by email. Electropedia - www.electropedia.org The worlds leading online dictionary of electronic and electrical terms co

10、ntaining more than 30 000 terms and definitions in English and French, with equivalent terms in additional languages. Also known as the International Electrotechnical Vocabulary (IEV) on-line. Customer Service Centre - webstore.iec.ch/csc If you wish to give us your feedback on this publication or n

11、eed further assistance, please contact the Customer Service Centre: csciec.ch. A propos de la CEI La Commission Electrotechnique Internationale (CEI) est la premire organisation mondiale qui labore et publie des Normes internationales pour tout ce qui a trait llectricit, llectronique et aux technolo

12、gies apparentes. A propos des publications CEI Le contenu technique des publications de la CEI est constamment revu. Veuillez vous assurer que vous possdez ldition la plus rcente, un corrigendum ou amendement peut avoir t publi. Liens utiles: Recherche de publications CEI - www.iec.ch/searchpub La r

13、echerche avance vous permet de trouver des publications CEI en utilisant diffrents critres (numro de rfrence, texte, comit dtudes,). Elle donne aussi des informations sur les projets et les publications remplaces ou retires. Just Published CEI - webstore.iec.ch/justpublished Restez inform sur les no

14、uvelles publications de la CEI. Just Published dtaille les nouvelles publications parues. Disponible en ligne et aussi une fois par mois par email. Electropedia - www.electropedia.org Le premier dictionnaire en ligne au monde de termes lectroniques et lectriques. Il contient plus de 30 000 termes et

15、 dfinitions en anglais et en franais, ainsi que les termes quivalents dans les langues additionnelles. Egalement appel Vocabulaire Electrotechnique International (VEI) en ligne. Service Clients - webstore.iec.ch/csc Si vous dsirez nous donner des commentaires sur cette publication ou si vous avez de

16、s questions contactez-nous: csciec.ch. IEC 61850-5 Edition 2.0 2013-01 INTERNATIONAL STANDARD NORME INTERNATIONALE Communication networks and systems for power utility automation Part 5: Communication requirements for functions and device models Rseaux et systmes de communication pour lautomatisatio

17、n des systmes lectriques Partie 5: Exigences de communication pour les modles de fonctions et dappareils INTERNATIONAL ELECTROTECHNICAL COMMISSION COMMISSION ELECTROTECHNIQUE INTERNATIONALE XG ICS 33.200 PRICE CODE CODE PRIX ISBN 978-2-83220-556-3 Registered trademark of the International Electrotec

18、hnical Commission Marque dpose de la Commission Electrotechnique Internationale 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 agr. colourinside 2 61850-5 IEC:2013 CONTE

19、NTS 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

20、 . 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 applicati

21、on 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

22、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.

23、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 61850-5 IEC:2013 3 8.3.3 Attributes of PICOMs . 27 8.

24、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 conne

25、ctions . 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

26、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

27、 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 Gen

28、eric 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

29、 . 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 L

30、N for applications . 59 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 definitio

31、ns 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 Typ

32、e 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

33、 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 r

34、ecovery 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

35、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 l

36、ogical 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

37、 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 61850-5 IEC:2013 5 Figure 4 Examples of the application of the logical node concept (explanation see text) 31 Figure 5 Protection

38、 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 functio

39、n. 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 (

40、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-

41、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 p

42、rocessing 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

43、-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 Larg

44、e 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

45、) 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 tr

46、ansfer 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

47、 (examples) . 76 Table A.1 PICOM groups . 78 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) . 95 Table B.3 PICOM allocation (Part 1) 96 Table B.4 PICOM allocation (Part 2) 97 Table B.5 PICOM types . 99 Table G.

48、1 Function-function interaction (Part 1) . 129 Table G.2 Function-function interaction (Part 2) . 130 Table G.3 Function decomposition into logical nodes (Part 1) 131 Table G.4 Function decomposition into logical nodes (Part 2) 132 Table G.5 Function decomposition into logical nodes (Part 3) 133 Tab

49、le G.6 Function decomposition into logical nodes (Part 4) 134 Table H.1 Definition of the configuration of all substations evaluated . 136 61850-5 IEC:2013 7 INTERNATIONAL ELECTROTECHNICAL COMMISSION _ COMMUNICATION NETWORKS AND SYSTEMS FOR POWER UTILITY AUTOMATION Part 5: Communication requirements for functions and device models FOREWORD