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Introduction to Iec 62361-102 Cim - 61850 Harmonization
25th International Conference on Electricity Distribution Madrid, 3-6 June 2019 Paper n° 1368 INTRODUCTION TO IEC 62361-102 CIM - 61850 HARMONIZATION Tom BERRY Schneider Electric – France [email protected] ABSTRACT TR IEC 62361-102 [1] is a Technical Specification that describes a mapping for information exchange between power system installations based on the modelling approach of IEC 61850; and business systems based on IEC CIM standard data exchanges. The document includes proposals to ‘harmonize’ the two standards by adapting or extending existing information models and/or defining new models, where such changes will enable more effective communication. This paper explains the key mapping principles and some of the recommendations for future editions of the standards. WHAT IS THE PROBLEM? The smart grid initiatives in the USA, Europe and Asia Figure 1: Data models for Smart Grids Architectural have all recognized the necessity to establish solid Methodology standards for communicating between all the "smart" devices. For interoperability purposes, it has been Several studies [3] and reports [4,5] have already been recognized, at an early stage, that widely shared semantics produced on the subject of harmonization, but failed to get to describe power systems would be necessary. Power sufficient support for publication as IEC standards or systems are complex and several technical groups have technical specifications. The approach taken by the task worked on different aspects of communication. There are force was to concentrate on a fundamental use case related different needs for information exchange within different to configuration of real time communication between contexts e.g. within a substation or within control centres. -
Technical Framework on Local Energy Communities TF-LEC Vol.1
Integrating the Energy System – IES Technical Framework on Local Energy Communities TF-LEC Vol.1 Version 0.5 First trial release January 14, 2021 TF-LEC Vol.1 i Document Information Title Technical Framework on Local Energy Communities – Vol.1 Editors Gerald Franzl, Stefan Wilker Authors Gerald Franzl Filename TF-LocalEnergyCommunities-Vol1_v005.pdf Description Local Energy Communities – operation principle and environment Last changes First trial release 01/2021 sClassification WHITE: open to public Version History Version Date Changed by Comment 0.1 2020-03-20 Gerald Franzl Start compiling content & text 0.3 2020-07-10 Gerald Franzl Invite cFlex team to contribute 0.5 2021-01-15 Gerald Franzl Publish the first trial version The TF-LEC was initiated and created within the cFlex project [energyit.ict.tuwien.ac.at/projects/project-cflex] by: Danube University Krems TU Wien Department for Integrated Sensor Systems Institute of Computer Technology (E384) Viktor Kaplan Strasse 2/E, Gusshaus Strasse 27-29/384, A-2700 Wiener Neustadt, Austria A-1040 Vienna, Austria www.donau-uni.ac.at/diss www.ict.tuwien.ac.at Corresponding author: [email protected] Acknowledgement: This Technical Framework was initiated and prepared in the course of the national project cFlex funded by the Austrian Climate and Energy Fund (KLIEN), administrated by the Austrian Research Promotion Agency (FFG) under contract number 871657. The initial authors like to thank all the contributing team members from the cFlex project for their invaluable contribution of knowledge, experience and support toward a better joint understanding of the complexities involved in operating Local Energy Communities. -
Integration Ecosystems Panel (Howard Self)
Howard Self, ABB , Program Manager Smart Grid, May 10, 2017 GMLC Interoperability Technical Meeting © ABB June 6, 2017 | Slide 1 Utility Network Control Overview Transmission – 1970 - 1995 SCADA Control Center Proprietary Protocols Harris 5000 CDC I & II Conitel 2020/3000 Telegyr 6500/8979 Valmet III & V PG&E 2179 SES 92 © ABB June 6, 2017 | Slide 2 Microprocessor Evolution(Integration Nightmare) 1988-1996, RS232,RS485 – 9600 Baud Relay/IEDs Regulator Controller RTU/Data Concentrator GETAC 2179 Incom /Modbus ASCII Incom Meter IED PLC/Data Concentrator SEL ASCII Modbus/DNP © ABB June 6, 2017 | Slide 3 The Birth of DNP3 1992-1994 through today o Open, non-proprietary o SBO (Select Before Operate) o Accurate Time Sync and Time Stamped Data o Quality flags, Internal Indications o Multiple Data Formats o Layer Separation (Link, transport, application) o Quiescent, Report-by-exception, polling o File transfer o UDP/TCP o Secure Authentication V2/V5 © ABB June 6, 2017 | Slide 4 The Need for Speed Inside the substation o Modbus Plus – 1 mb/s (Serial Taken ring) o Modbus TCP/IP – 10/100 mb/s o Profibus – 12mbs o DNP/IP – 10/100mbs o LON o UCA – 10/100 mb/s (Client/Server, Peer-to-peer) o IEC 61850 – 10/100 mb/s (Client/Server, Peer-to- peer, Sample measured Values) © ABB June 6, 2017 | Slide 5 Introduction UCA 2.0/IEC 61850 start-up UCA Project Origin: . Utility Communications Architecture (UCA) - enterprise-wide unified scheme to share all operating and management information . 1994 - EPRI member utilities called for common standard for IEDs in substations . -
Smart Grid Standardization Documentation Map
D2.1 – SMART GRID STANDARDIZATION DOCUMENTATION MAP The research leading to these results has received funding from the European Community's Seventh Framework Programme (FP7/2007-2013) under grant agreement no 318782. STARGRID FP7 - 318782 D2.1 – SMART GRID STANDARDIZATION DOCUMENTATION MAP Version V1.3 Status Final Draft Work Package WP2 Preparation Date 2013-11-08 Due Date M8 Submission Date 2013-06-28 Inés Gómez (TECNALIA) J. Emilio Rodríguez (TECNALIA) Main Author(s) Eugenia Aghinii (ASRO) Speranta Stomff (ASRO) Joseba Jimeno (TECNALIA) Christoph Nölle (IWES) Contributors Ibon Arechalde (TECNALIA) Eduardo García (TECNALIA) Eutimio Sánchez (TECNALIA) Dissemination Level PU Nature R Keywords Smart Grid, Standardization, Industry Initiatives D2.1 – Smart Grid standardization documentation map VERSION HISTORY Version Date Author(s) Comments Inés Gómez (TECNALIA) J. Emilio Rodríguez (TECNALIA) Eugenia Aghinii (ASRO) v0.1 2013-06-25 First draft Speranta Stomff (ASRO) Joseba Jimeno (TECNALIA) Christoph Nölle (IWES) Inés Gómez (TECNALIA) J. Emilio Rodríguez (TECNALIA) Eugenia Aghinii (ASRO) V0.2 2013-06-27 Final draft Speranta Stomff (ASRO) Joseba Jimeno (TECNALIA) Christoph Nölle (IWES) Inés Gómez (TECNALIA) J. Emilio Rodríguez (TECNALIA) Eugenia Aghinii (ASRO) v1.0 2013-06-28 Final version, submitted Speranta Stomff (ASRO) Joseba Jimeno (TECNALIA) Christoph Nölle (IWES) Inés Gómez (TECNALIA) J. Emilio Rodríguez (TECNALIA) Eugenia Aghinii (ASRO) V1.2 2013-07-16 Periodic review Speranta Stomff (ASRO) Joseba Jimeno (TECNALIA) Christoph Nölle (IWES) Inés Gómez (TECNALIA) J. Emilio Rodríguez (TECNALIA) Eugenia Aghinii (ASRO) V1.3 2013-11-08 Periodic review Speranta Stomff (ASRO) Joseba Jimeno (TECNALIA) Christoph Nölle (IWES) 2013-11-08 v1.3 2/312 D2.1 – Smart Grid standardization documentation map TABLE OF CONTENTS Version History................................................................................................................................................ -
CGMES Profiling User Guide V1.0
European Network of Transmission System Operators for Electricity CGMES Profiling User Guide v1.0 2021-04-21 SOC APPROVED VERSION 1.0 ENTSO-E AISBL • Rue de Spa, 8 • 1000 Brussels • Belgium • Tel +32 2 741 09 50 • Fax +32 2 741 09 51 • [email protected] • www.entsoe.eu CGMES Profiling User Guide v1.0 European Network of Transmission System Operators for Electricity Copyright notice: Copyright © ENTSO-E. All Rights Reserved. This document and its whole translations may be copied and furnished to others, and derivative works that comment on or otherwise explain it or assist in its implementation may be prepared, copied, published and distributed, in whole or in part, without restriction of any kind, provided that the above copyright notice and this paragraph are included on all such copies and d erivative works. However, this document itself may not be modified in any way, except for literal and whole translation into languages other than English and under all circumstances, the copyright notice or references to ENTSO-E may not be removed. This document and the information contained herein is provided on an "as is" basis. ENTSO-E DISCLAIMS ALL WARRANTIES, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. Maintenance notice: This document is maintained by the ENTSO-E CIM EG. Comments or remarks are to be provided at [email protected] NOTE CONCERNING WORDING USED IN THIS DOCUMENT The force of the following words is modified by the requirement level of the document in which they are used. -
Author Information Only
Cyber Security Practical considerations for implementing IEC 62351 Frank Hohlbaum, Markus Braendle, Fernando Alvarez ABB [email protected] Switzerland 1. Introduction Two trends are currently changing substation automation systems: IEC 61850 and the need for increased cyber security. IEC 61850 has gained global acceptance by both vendors as well as customers. Cyber security on the other hand has quickly become one of the most dominant topics for control systems in general and electrical utilities in particular. The combination of the two, securing IEC 61850 based communications, has been one of the goals of the recently published technical specification IEC 62351. In the authors‟ view IEC 62351 is overall a good starting point and will be the future standard to help secure IEC 61850 communication. However, there are some shortcomings of the current standard and some challenges that need to be addressed before IEC 62351 can be implemented and gain wide acceptance. This paper will highlight the challenge of addressing secure communication in the substation real-time environment, complying with the IEC 61850 real-time specifications. The major difficulties are to reach the performance defined in IEC 61850 for GOOSE and SV data with today‟s proposed technical specification defined for IEC 62351 part 6. In chapter 2, we will give a short overview about the structure of IEC 61850 as well as the detailed performance requirements for the various data types. Chapter 3 will present an introduction of the IEC 62351 standard including the used methods to secure the IEC 61850 communication. Chapter 4 will then show the major implementation issues of IEC 62351 part 6. -
Preview - Click Here to Buy the Full Publication
This is a preview - click here to buy the full publication IEC/TR 62351-10 ® Edition 1.0 2012-10 TECHNICAL REPORT colour inside Power systems management and associated information exchange – Data and communications security – Part 10: Security architecture guidelines INTERNATIONAL ELECTROTECHNICAL COMMISSION PRICE CODE X ICS 33.200 ISBN 978-2-83220-419-1 Warning! Make sure that you obtained this publication from an authorized distributor. ® Registered trademark of the International Electrotechnical Commission This is a preview - click here to buy the full publication – 2 – TR 62351-10 © IEC:2012(E) CONTENTS FOREWORD ........................................................................................................................... 4 INTRODUCTION ..................................................................................................................... 6 1 Scope ............................................................................................................................... 7 2 Normative references ....................................................................................................... 7 3 Terms, definitions and abbreviations ................................................................................ 7 3.1 Terms and definitions .............................................................................................. 7 3.2 Abbreviations .......................................................................................................... 7 4 Power systems – specifics and related -
57-61968-5-Ed1-FDIS
IEC 61968-5 ED1 © IEC:2020 – 1 – 1 CONTENTS 2 3 FOREWORD ........................................................................................................................... 4 4 INTRODUCTION ..................................................................................................................... 6 5 Scope ..................................................................................................................................... 8 6 Normative references .............................................................................................................. 9 7 Terms, definitions and abbreviated terms .............................................................................. 10 8 3.1 Terms and definitions............................................................................................ 10 9 3.3 Abbreviated terms ................................................................................................. 10 10 Conventions .......................................................................................................................... 11 11 DER enterprise integration use cases ................................................................................... 11 12 5.1 General ................................................................................................................. 11 13 5.2 DER Group Creation ............................................................................................. 14 14 5.3 Maintenance of DERGroups ................................................................................. -
IEC 62351 Security Standards for the Power System Information Infrastructure
IEC TC57 WG15: IEC 62351 Security Standards for the Power System Information Infrastructure Frances Cleveland, WG15 Convenor Xanthus Consulting International Contents 1. OVERVIEW: IEC TC57 WG15 SECURITY FOR POWER SYSTEM COMMUNICATIONS ................... 1 2. DUAL INFRASTRUCTURES: THE POWER SYSTEM AND THE INFORMATION SYSTEM .................. 2 3. WHY CYBERSECURITY? ............................................................................................................ 3 3.1 Legacy Approach: Security by Obscurity .......................................................................... 3 3.2 Smart Grid as Cyber-Physical Systems .............................................................................. 4 4. SECURITY CONCEPTS ............................................................................................................... 5 4.1 Security Threats ............................................................................................................... 5 4.2 Security Purposes ............................................................................................................ 5 4.3 Security Processes ........................................................................................................... 6 4.4 Security Planning ............................................................................................................. 7 4.5 Security Requirements .................................................................................................... 8 4.6 Security Attacks .............................................................................................................. -
The Common Information Model CIM Mathias Uslar, Michael Specht, Sebastian Rohjans, Jörn Trefke, and José Manuel Vasquez González
The Common Information Model CIM Mathias Uslar, Michael Specht, Sebastian Rohjans, Jörn Trefke, and José Manuel Vasquez González The Common Information Model CIM IEC 61968/61970 and 62325 – A Practical Introduction to the CIM ABC Authors Dr.-Ing. Mathias Uslar Dipl.Inf. Jörn Trefke OFFIS - Institut für Informatik OFFIS - Institut für Informatik Escherweg 2 Escherweg 2 26131 Oldenburg 26131 Oldenburg E-mail: uslar@offis.de E-mail: Joern.trefke@offis.de Dipl.-Inf. (FH) Michael Specht Dipl.-Wirt.Inf. José Manuel Vasquez González OFFIS - Institut für Informatik OFFIS - Institut für Informatik Escherweg 2 Escherweg 2 26131 Oldenburg 26131 Oldenburg E-mail: michael.specht@offis.de E-mail: jose.gonzalez@offis.de Dipl.-Inform. Sebastian Rohjans OFFIS - Institut für Informatik Escherweg 2 26131 Oldenburg E-mail: sebastian.rohjans@offis.de ISBN 978-3-642-25214-3 e-ISBN 978-3-642-25215-0 DOI 10.1007/978-3-642-25215-0 Library of Congress Control Number: 2011942873 c 2012 Springer-Verlag Berlin Heidelberg This work is subject to copyright. All rights are reserved, whether the whole or part of the mate- rial is concerned, specifically the rights of translation, reprinting, reuse of illustrations, recitation, broadcasting, reproduction on microfilm or in any other way, and storage in data banks. Dupli- cation of this publication or parts thereof is permitted only under the provisions of the German Copyright Law of September 9, 1965, in its current version, and permission for use must always be obtained from Springer. Violations are liable to prosecution under the German Copyright Law. The use of general descriptive names, registered names, trademarks, etc. -
IEC-International Electrotechnical Commission
Standards Manager Web Standards List IEC-International Electrotechnical Commission Id Number Title Year Organization Page 1 60034-2-3 Rotating electrical machines _ Part 2-3: Specific test methods for determining losses and efficiency of converter-fed AC 2020 IEC motors - Edition 1.0 2 60034-3 Rotating electrical machines _ Part 3: Specific requirements for synchronous generators driven by steam turbines or 2020 IEC combustion gas turbines and for synchronous compensators - Edition 7.0 3 60034-5 Rotating electrical machines _ Part 5: Degrees of protection provided by the integral design of rotating electrical machines 2020 IEC (IP code) _ Classification - Edition 5.0 4 60034-7 Rotating electrical machines _ Part 7: Classification of types of construction, mounting arrangements and terminal box 2020 IEC position (IM Code) - Edition 3.0 5 60034-11 Rotating electrical machines _ Part 11: Thermal protection - Edition 3.0 2020 IEC 6 60034-18-42 Rotating electrical machines _ Part 18-42: Partial discharge resistant electrical insulation systems (Type II) used in rotating 2020 IEC electrical machines fed from voltage converters _ Qualification tests - Edition 1.1; Consolidated Reprint 7 60045-1 Steam turbines _ Part 1: Specifications - Edition 2.0 2020 IEC 8 60050-113 NULL 2020 IEC AMD 2 9 60050-113 AMENDMENT 3 International Electrotechnical Vocabulary (IEV) _ Part 113: Physics for electrotechnology - Edition 1.0 2020 IEC AMD 3 10 60050-151 AMENDMENT 4 International Electrotechnical Vocabulary (IEV) _ Part 151: Electrical and magnetic devices -
BULETINUL STANDARDIZĂRII Publicaţie Oficială a Organismului Naţional De Standardizare
BULETINUL STANDARDIZĂRII Publicaţie oficială a Organismului Naţional de Standardizare Noiembrie 2018 CUPRINS Direcţia Comercială Șef Serviciu: Eduard Laurențiu Ioan Redactare şi tehnoredactare: Serviciul Producţie STANDARDIZAREA NAŢIONALĂ ......................... 1 Management Informatic: Dumitriana Bănică, Standarde aprobate ������������������������������������������������������������������������ 1 Monica Marin, Ştefania Kraus Standarde anulate ���������������������������������������������������������������������������12 Standarde europene adoptate iniţial prin filă de confirmare sau notă de confirmare pentru care se publică versiunea română ������������������������21 Modificări în organizarea şi structura comitetelor tehnice �����������������������������������������������������������������������25 STANDARDIZAREA EUROPEANĂ ...................... 26 Standarde europene CEN aprobate �������������������������������������26 Standarde europene CENELEC aprobate �������������������������31 Standarde europene ETSI aprobate �������������������������������������33 Proiecte de standarde europene CEN supuse anchetei publice �������������������������������������������������������������47 Proiecte de standarde europene CENELEC supuse anchetei publice �������������������������������������������������������������51 Proiecte de standarde europene ETSI supuse anchetei publice �������������������������������������������������������������53 STANDARDIZAREA INTERNAŢIONALĂ ............. 54 Standarde internaţionale ISO aprobate �����������������������������54