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    CEN CLC ETSI TR 50572-2011 Functional reference architecture for communications in smart metering systems《智能计量系统通信的功能性参考体系结构》.pdf

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    CEN CLC ETSI TR 50572-2011 Functional reference architecture for communications in smart metering systems《智能计量系统通信的功能性参考体系结构》.pdf

    1、raising standards worldwideNO COPYING WITHOUT BSI PERMISSION EXCEPT AS PERMITTED BY COPYRIGHT LAWBSI Standards PublicationFunctional reference architecture for communications in smart metering systemsPD CEN/CLC/ETSI/TR 50572:2011National forewordThis Published Document is the UK implementation of CE

    2、N/CLC/ETSI/TR 50572:2011.The UK participation in its preparation was entrusted to Technical Committee SMG/1, Smart Meter Group.A list of organizations represented on this committee can be obtained on request to its secretary.This publication does not purport to include all the necessary provisions o

    3、f a contract. Users are responsible for its correct application. The British Standards Institution 2012Published by BSI Standards Limited 2012 ISBN 978 0 580 76375 5 ICS 33.200; 91.140.01Compliance with a British Standard cannot confer immunity from legal obligations.This Published Document was publ

    4、ished under the authority of the Standards Policy and Strategy Committee on 29 February 2012.Amendments issued since publicationAmd. No. Date Text affectedPUBLISHED DOCUMENTPD CEN/CLC/ETSI/TR 50572:2011TECHNICAL REPORT CEN/CLC/ETSI/TR 50572 RAPPORT TECHNIQUE TECHNISCHER BERICHT December 2011 CEN-CEN

    5、ELEC Management Centre: Avenue Marnix 17, B-1000 Brussels CEN-CENELEC Management Centre: Avenue Marnix 17, B-1000 Brussels ETSI Secretariat 650, Route des Lucioles 06921 Sophia-Antipolis Cedex France 2011 CEN-CENELEC-ETSI All rights of exploitation in any form and by any means reserved worldwide for

    6、 CEN, CENELEC and ETSI Members Ref. CEN/CLC/ETSI/TR 50572:2011 E ICS 33.200; 91.140.01 English version Functional reference architecture for communications in smart metering systems Architecture fonctionnelle de rfrence pour les communications dans les systmes de comptage intelligent Funktionale Ref

    7、erenzarchitektur fr die Kommunikation in intelligenten Messsystemen This Technical Report was approved by CEN and CENELEC on 2011-12-01. CEN and CENELEC members are the national standards bodies and national electrotechnical committees of Austria, Belgium, Bulgaria, Croatia, Cyprus, the Czech Republ

    8、ic, Denmark, Estonia, Finland, France, Germany, Greece, Hungary, Iceland, Ireland, Italy, Latvia, Lithuania, Luxembourg, Malta, the Netherlands, Norway, Poland, Portugal, Romania, Slovakia, Slovenia, Spain, Sweden, Switzerland and the United Kingdom. PD CEN/CLC/ETSI/TR 50572:2011CEN/CLC/ETSI/TR 5057

    9、2:2011 - 2 - Contents Page Foreword . . 4Introduction . . 51 Scope . 52 Legislative framework . . 62.1 Directives . 62.2 Metrological considerations . . 62.3 References . . 73 Commonly used terms . 74 Approach to standardization . 124.1 Principles . 124.2 Scope of standardization work . 124.3 Smart

    10、metering in the context of smart grids . . 135 Privacy and data security . . 145.1 Introduction . 145.2 Privacy and data protection . . 145.2.1 Legislative framework . . 145.2.2 Approach . 155.3 General security policy and concepts . . 155.3.1 Principles . 155.3.2 Security concept . 165.3.3 Tamper r

    11、esistance . . 175.3.4 Security policy . . 176 Architecture and configurations . 176.1 Introduction . 176.2 Scope of architecture . 176.3 Functional reference architecture . 186.4 Physical configurations . 206.5 Description of functional entities . . 206.5.1 Introduction . 206.5.2 Central communicati

    12、on system / AMI Head End System (HES) . 206.5.3 Local Network Access Point (LNAP) . . 206.5.4 Neighborhood Network Access Point (NNAP) . . 216.5.5 Metering end devices . 216.5.6 Display and home automation . . 226.6 Interfaces . 226.6.1 Introduction . 226.6.2 AMI Head End System interface (G interfa

    13、ce) . 226.6.3 NNAP interface (C interface) . 226.6.4 Metering end device interface (M interface) . . 226.6.5 Display and home automation end device interfaces (H1, H2 and H3 interfaces) . 236.6.6 LNAP / NNAP Peer Interfaces (L and N interfaces) . 237 Standardization overview and co-ordination betwee

    14、n the ESOs . 238 Currently available communications standards and further standardization . 248.1 Introduction . 248.2 Table of existing communications standards and standards to be developed under the mandate . 258.3 Product standards related to additional functionalities . 419 Interoperability and

    15、 conformance . 419.1 Interoperability . . 419.1.1 Principles . 419.1.2 Interface standards. 419.2 Conformance and interoperability testing . 429.2.1 Conformance testing . . 429.2.2 Interoperability testing . 42PD CEN/CLC/ETSI/TR 50572:2011- 3 - CEN/CLC/ETSI/TR 50572:2011 Annex A (informative) SM-CG

    16、use cases . 43A.1 Introduction . 43A.2 Methodology . 43A.3 Table of use cases . . 44Annex B (informative) Abbreviations and glossary of commonly used terms in smart metering . . 49B.1 List of abbreviations. 49B.2 Glossary of commonly used terms - sources . 51B.3 Glossary of commonly used terms . 52A

    17、nnex C (informative) Functional reference architecture for smart metering communications and configuration examples . . 63Annex D (informative) Product standards related to additional functionalities . 67Annex E (informative) History . 69Figures Figure 1 Smart metering in the context of smart grid a

    18、nd home automation . 14Figure 2 Reference architecture diagram for smart metering communications . 18Figure 3 Responsibilities for interface standardization co-ordination, in co-operation with other TCs . 23Figure 4 The principle of conformance testing . 42Figure 5 The principle of interoperability

    19、testing . . 42Figure C.1 Functional reference architecture for smart metering communications - as shown in 6.3, Figure 2 . 63Figure C.2 Configuration example (i) no neighborhood network . . 64Figure C.3 Configuration example (ii) no local network . . 65Figure C.4 Configuration example (iii) Multiple

    20、 meter communications via LNAP . 66Tables Table 1 Existing communications standards and standards to be developed under the mandate . 25Table A.1 Use cases 44PD CEN/CLC/ETSI/TR 50572:2011CEN/CLC/ETSI/TR 50572:2011 - 4 - Foreword This document (CEN/CLC/ETSI/TR 50572:2011) has been prepared by CEN/CEN

    21、ELEC/ETSI Smart Meters Coordination Group (SM-CG). Attention is drawn to the possibility that some of the elements of this document may be the subject of patent rights. CENELEC and/or CEN shall not be held responsible for identifying any or all such patent rights. This document has been prepared und

    22、er Mandate M/441 given to CEN, CENELEC and ETSI by the European Commission and the European Free Trade Association. _ PD CEN/CLC/ETSI/TR 50572:2011- 5 - CEN/CLC/ETSI/TR 50572:2011 Introduction This Technical Report identifies a functional reference architecture for communications relevant for smart

    23、metering systems and the standards relevant to meeting the technical / data communications requirements of Mandate M/441, in particular to assist the active participation of consumers in the energy markets. The architecture has been developed drawing on existing and planned implementations but its g

    24、eneric nature should enable it to support future different implementations. Clause 1 sets out the scope of this Technical Report on communications in the context of the overall standardization work being undertaken in response to Mandate M/441, including that on additional functionalities. Clause 2

    25、gives the legislative framework and lists the references underpinning the smart metering work more generally. Clause 3 provides relevant extracts from the glossary of commonly used terms developed to support the M/441 Mandate work. For the benefit of stakeholders including the European Commission, C

    26、lause 4 then sets the standardization work on communications in the context of the overall approach to the M/441 Mandate, with particular reference to the link between smart metering and smart grids. Clause 5 considers privacy and data security. Clause 6 (“Architecture“) presents a functional refere

    27、nce architecture for smart metering systems, identifying the functional entities and interfaces that the communications standards should address. Clause 7 gives a general overview of the co-ordination between the ESOs for each of the specified interfaces. Clause 8 (“Currently available communication

    28、s standards and further standardization“) provides a table setting out current and future communications standards which are considered to be relevant for smart metering in Europe. The table (shown in 8.2) indicates the most relevant current standards together with the communications standards to be

    29、 developed in the course of the mandate and the ESO technical committee responsible for co-ordinating the standardization work. It also identifies the smart metering interfaces addressed by the standards noted. The table is not meant to be an exhaustive list of standards; other alternative standards

    30、 will be considered in the future and could be determined to be acceptable standards as well. Clause 9 (“Interoperability and conformance“) considers the nature of interoperability required under M/441 and responsibilities for conformance testing. Annexes are included, to assist understanding of the

    31、 use cases envisaged and terms used, give examples of practical implementations of the architecture described and to identify relevant product standards. 1 Scope This Technical Report concerns the following communications deliverable within M/441: A European standard comprising a software and hardwa

    32、re open architecture for utility meters that supports secure bidirectional communication upstream and downstream through standardized interfaces and data exchange formats and allows advanced information and management and control systems for consumers and service suppliers. The architecture must be

    33、scalable to support from the simplest to the most complex applications. Furthermore, the architecture must consider current relevant communications media and be adaptable for future communication media. The communication standard of the open architecture must allow the secure interfacing for data ex

    34、changes with the protected metrological block. PD CEN/CLC/ETSI/TR 50572:2011CEN/CLC/ETSI/TR 50572:2011 - 6 - Since no single standard can cover all aspects for the full application range of smart metering systems, the deliverable takes the form of this Technical Report. The Technical Report is the s

    35、econd document produced by the Smart Metering Co-ordination Group following acceptance of the Mandate 441 (M/441). The first - a response to the mandate - was issued in December 2009 and provided an overview of the current and future standardization activities, considering both the communications an

    36、d the additional functionalities of smart meters. Once the standardization activity undertaken in response to Mandate M/441 is complete for both the communications and additional functionality aspects, a final report will be produced providing a list of the finalized standards in both these areas. 2

    37、 Legislative framework 2.1 Directives The Energy Services Directive (2006/32/EC) and the recently adopted electricity and gas directives (2009/72/EC and 2009/73/EC) are important elements in the background to the M/441 Mandate. For electricity, the directive requires the implementation of intelligen

    38、t metering systems that shall assist the active participation of consumers in the market. Such systems must be in place for 80 % of electricity consumers by the end of 2020 (unless an economic assessment shows that a lower figure is appropriate). For gas, there may be an economic assessment of such

    39、metering systems (by September 2012) but there is no specific target date by which they have to be installed, although this should be achieved within a reasonable period of time. The number of electricity and gas meters potentially required to be replaced over the coming decade makes this standardiz

    40、ation work urgent. In the water sector, smart metering may contribute to meeting the goals of the Water Framework Directive (2000/60/EC), by allowing better control of water uses by consumers. It may also help implementation of the action plan being currently finalized against water scarcity and the

    41、 impact of droughts, notably regarding “water performances of buildings”. 2.2 Metrological considerations The Measuring Instruments Directive 2004/22/EC (MID) covers the essential (metrological) requirements of meters and is currently being reviewed in the context of the adoption of the New Legislat

    42、ive Framework 765/2008/EC. The European Commission is now in the process of preparing a report on the implementation of the MID, for submission to the European Parliament and Council. See: http:/ec.europa.eu/enterprise/sectors/legal-metrology-and-prepack/public-consultation/index_en.htm Smart meter

    43、standardization undertaken in response to M/441 deals with additional functionalities not of a metrological nature which are not prohibited by the MID provided they do not affect the metrology required by the MID. Consideration should be given at the design stage of any smart metering system to such

    44、 functions as real-time clocks or tariff schedule registers which may need to be synchronized through external communication. This is to ensure that the metrological characteristics of the meter are not influenced in any inadmissible way by the connection to it of another device, by any feature of t

    45、he connected device itself or by any remote device that communicates with the meter. WELMEC has produced Guidelines which set out recommendations for the software used in or connected to the metrologically protected part of measuring instruments and its communications interface(s). The standards to

    46、be developed under M/441 should consider these recommendations, in particular concerning the functional requirement of upgrading software / firmware and specific provisions regarding the downloading of legally relevant and non-legally relevant software. Care should be taken at the design stage to en

    47、sure that any software / firmware upgrade process does not influence those parts of the meter that are under the control of the MID. PD CEN/CLC/ETSI/TR 50572:2011- 7 - CEN/CLC/ETSI/TR 50572:2011 2.3 References Directive 2006/32/EC of the European Parliament and of the Council of 5 April 2006 on ener

    48、gy end-use efficiency and energy services and repealing Council Directive 93/76/EEC. Directive 2009/72/EC of the European Parliament and of the Council of 13 July 2009 concerning common rules for the internal market in electricity and repealing Directive 2003/54/EC Directive 2009/73/EC of the Europe

    49、an Parliament and of the Council of 13 July 2009 concerning common rules for the internal market in natural gas and repealing Directive 2003/55/EC Directive 2000/60/EC of the European Parliament and of the Council of 23 October 2000 establishing a framework for the Community action in the field of water policy. Directive 2004/22/EC of the European Parliament and


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