1、STD.BSI BS EN 61334-4-41-ENGL 1998 II624669 0692638 917 = BRITISH STANDARD Distribution automation using distribution line carrier systems Part 4. Data communication protocols Section 41: Application protocols Distribution line message specification * * vi The European Standard EN 613344.41 : 1996 h
2、as the status of a British Standard ICs 35.100.70 BS EN 61334-4-41 : 1998 IEC 61334-4-41 : 1996 NO COPYING WITHOUT BSI PERMISSION EXCEPT AS PERMITTED BY COPYRIGHT LAW SPD-BSI BS EN 61334-Y-Yl-ENGL 1998 1624669 Ob92639 853 BS EN 61334441 : 1998 This British Stinard, having been prepared under the dir
3、ection of the Electrotechncai Sector Board, was pubiished under the authority of the standards Board and comes into effect on 16 April 1998 8 BSI lQ!% iSBN O 680 28702 5 National foreword This British Standard is the English language version of EN 61334441 : 1996. It is identical with IEC 61334441:
4、1996. The UK participation in its prepamtion was entrusted to Technid Commim PELIs7, Power system control and associated communications, which has the responsibility to: - aid enquirem to understand the text, - present to the responsible intemationa/European commim any enquiries on the interpretatio
5、n, or proposa3s for change, and keep the UK interests informed; - monitor related international and European developments and promulgate them in the UK. A list of omons represented on this committee can be obtained on request to its secretaq From 1 January 1997, all IEC publications have the number
6、60000 added to the old number. For instance, IEC 27-1 has been renumbered as IEC 60027-1. For a period of time during the change over from one numbering system to the other, publicaiions may contain identiem from both systems. Cross-references Attention is drawn to the fact that CEN and CENELEC Stan
7、dards nonnaiy include an annex which lists nonnative references to internationai publications with their corresponding European publicaiions. The British Standards which implement these internationai or European publications may be found in the BSI Standards Catalogue under the section entitied Inte
8、x-national Standards Correspondence index, or by using the “in8 faciiity of the BSI Standards Electronic Cataiogue. Compliance with a British Standard does not of itself confer immunity from legal obligations. Summary of pages This document comprises a front cover, an inside front cover, the EN titl
9、e page, pages 2 to 125 and aback cover. Amendments issued since publication EUROPEAN STANDARD NORME EUROPEENNE EUROPISCHE NORM EN 61 334-4-41 December 1996 ICs 35.100.70 Descriptors: Electric power, distribution automation, line carrier systems, data communication protocols, distribution line messag
10、e specification English version Distribution automation using distribution line carrier systems Part 4: Data communication protocols Section 41 : Application protocols Distribution line message specif cation (IEC 7 334-4-47 : 1996) Automatisation de la distribution laide de systmes de communication
11、courants porteurs Partie 4: Protocoles de communication de donnes Section 41 : Protocoles dapplication Spcification des messages de ligne de distribution (CE1 1334-4-41 : 1996) Verteilungsautomatisierung mit Hilfe von Trgersystemen auf Verteilungsleitungen Te i 4: Daten ko mm un i ka t io ns p rot o
12、 ko I le Hauptabschnitt 41 : Anwendungsprotokolle Verteilungsleitungs- Nac hrichtenspezifi kation (IEC 1334-4-41 : 1996) This European Standard was approved by CENELEC on 1996-1 0-01. CENELEC members are bound to comply with the CENKENELEC Internal Regulations which stipulate the conditions for givi
13、ng 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 Central Secretariat or to any CENELEC member. This European Standard exists in three official v
14、ersions (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 Central Secretariat has the same status as the officiai versions. CENELEC members are the national eiectrotechnical committees
15、 of Austria, BelQium, Denmark, Finland, France, Germany, Greece, Iceland, Ireland, Italy, Luxembourg, Netherlands, Norway, Portugal, Spain, Sweden, Switzerland and United Kingdom. CENELEC European Committee for Electrotechnical standardization Comit Europen de Normalisation Electrotechnique Europisc
16、hes Komitee fr Elektrotechnische Normung Central Secretariat: rue de Stassart 35, B - 1050 Brussels - 1996 Copyright reserved to CENELEC members Ref. No. EN 61334-4-41:1996 E - STD-BSI BS EN b1334-4-41-ENGL 1998 1b24bb9 ObWb41 401 Page 2 EN 61334-4-41 : 1996 Foreword The text of document 57/261/FDIS
17、, future edition 1 of IEC 1334-4-41, prepared by IEC TC 57, Power system control and associated communications, was submitted to the IEC-CENELEC parallel vote and was approved by CENELEC as EN 61334-4-41 on 1996-1 0-01. The following dates were fixed: - latest date by which the EN has to be implemen
18、ted at national level by publication of an identical national standard or by endorsement (dopl 1997-07-01 - latest date by which the national standards conflicting with the EN have to be withdrawn (daw) 1997-07-01 Annexes designated “normative“ are part of the body of the standard. Annexes designate
19、d “informative“ are given for information only. In this standard, annexes A and ZA are nonnative and annex B is informative. Annex ZA has been added by CENELEC. Endorsement notice The text of the International Standard IEC 1334-4-41 : 1996 was approved by CENELEC as a European Standard without any m
20、odification. _- . STD-BSI BS EN bL334-4-41-ENGL 1998 m Lb2YbbS Ob92b42 348 m Page 3 EN 61334-4-41 : 1996 CONTENTS Pagi INTRODUCTION 7 Clause 1 scope . 8 2 Nonnative references g 3 Definitions . 10 3.1 Reference model definitions . 10 3.2 Service convention definitions . 10 3.3 Other definitions . .
21、11 3.4 Abbreviations i 12 3.5 Conventions . 12 3.5.1 Service parameter description . 12 35.2 Addressing in DLMS 13 35.3 Service conventions 14 35.4 Sending and receiving DLMS user and DLPM . 14 355 Requesting and responding DLMS user 15 3.5.6 Client and server of a service 15 3.5.7 Object modelling
22、. i . 15 4 Virtual distribution quipment 17 17 4.1.1 Ihe VDE within the AP 17 4.1.2 Ihe fi within b) the externally visible functionality of implementations conforming to this specification, in the form of procedural requirements associated with the execution of service requests; c) the primitive ac
23、tions and events of services; d) the parameter data associated with each primitive actions and events; e) the relationship between, and the valid sequences of, these actions and events. The services defined in this specification are provided by the distribution line message specification protocol. T
24、hey may be used by other application layer service elements or by other elements of the application process. This specification does not specis individual implementations or products, nor does it constrain the implementation of entities and interfaces within a computer system. This specification spe
25、cifies the externally visible functionality of implementations and the conforniance requirements for such functionality. Page 8 STDDBSI BS EN bI334-4-4I-ENGL I998 Lb24669 0692b47 92T EN 61334-4-41 : 1996 DISTRIBUTION AUTOMATION USING DISTRIBUTION LINE CARRIER SYSTEMS - Part 4 : Data communication pr
26、otocols - Section 41: Application protocols - Distribution line message specification 1 Scope The scope of application of the specifications of the dons of part 4 is the communication through the so-called distribution line der technology (DK) on both low and medium voltage distribution network. “he
27、 application range based on telmmmunication processes is wide and cannot be described exhaustively in this section; application examples are: control and monitoring of the distribution network, broadcasting of orders, control of user interfaces. public lighting, b) application-process (AP); c) appli
28、cation service element (ASE); d) open system; 3.2 Service convention definitions This specification makes use of the following terms defined in ISO/IEc/In 8509 as they apply to the distribution line message specification: a) primitive; b) wu-; c) iadicrition; d) -PO=; e) eonnim; STDoBSI BS EN 61334-
29、4-41-ENGL 1998 W 1624669 0692650 Y14 Page 11 EN 61334-4-41 : 1996 f) service primitive; g) service provider; h) service user. 3.3 Other definitions For the purpose of this specification, the following definitions also apply: 3.3.1 3.3.2 3.3.3 3.3.4 3.3.5 * * 3.3.8 v) 3.3.9 3.3.10 3.3.1 1 3.3.12 3.3.
30、13 3.3.14 3.3.15 attribute: A data element, having a defined meaning, together with a statement of the set of possible values it may take. data: Any representation to which meaning is or might be assigned (for example characters). data set: An abstract object that represents a subset of the capabili
31、ties of a VDE which is used for a specific purpose. Distribution Line Protocol Machine (DLPM): An abstract machine that carries out the procedures specified in this specification. DLMS con- A specification of the service elements of DLMS and semantics of communication to be used during the lifetime
32、of an application association. Key attribute : Attribute of an object type which is part of a combination of attributes that uniquely identifies the object. loading: The process of transferring the contents of a data set from a DLMS client to a DLMS server. predefined object: An object that exists a
33、t the VDE and that may not be created with DLMS services. standardized object: An instance of an object which scope of access is VDE-specific or VU-specific and the definition of which is provided in this specification. type: An abstract description of the data class which may be conveyed by the val
34、ue of a variable. uploading: The process of transfemng the contents of a data set (or part of them) from a DLMS server to a DLMS client. VAA-specific (Virtual Application Association specific): An adjective used to describe an object which may be accessed only by the application association which ha
35、s previously created the VAA object. variable: One or more data elements that are referred all together by a single name. variable access: The access mechanism to variables or variable components defined at the VDE. VDEspecific: An adjective used to describe an object which may be accessed by all th
36、e application associations established with the WE. STD*BSI BS EN Page 12 EN 61334-4-41 : 1996 3.4 Abbreviations The following abbreviations are used in DLMS: (A-1)SAP : Underlying application service access point with (A-1) representing the layer below he application layer. AA ACSE AE AP ASE ASN. 1
37、 DLMS DLPM DS os1 PDU SAP SDU TI VAA VDE : Application association : Association control service element : Application entity : Application process : Application service element : Absead syntax notation one : Distribution line message specification : Distribution line protocol machine : Data set : O
38、pen systems interconnection : Rotocol data unit : Service access point : service data unit : Task invocation : Virtuai application aissociation : Vimial distribution equipment 3.5 Conventions 3.5.1 Service bcrrcrmeter U - the parameter is a user option, and may or may not be provided depending on dy
39、namic usage by the DLMS user; S - the parameter is selected among other S-parameters as internal response of the DLMS server environment; C - the parheter is conditional upon other parameters or the environment of the DLMS user; (blank) - the parameter is never present. The “(=)“ code following one
40、of the M, U, C or S codes indicates that the parameter is semantically equivalent to the parameter in the service primitive to its immediate left in the table. (For instance, an “M(=)“ code in the indication service primitive column and an “M“ in the request service primitive column means that the p
41、arameter in the indication primitive is semantically equivalent to the one in the request primitive). Some parameters may contain subparameters. Subparameters are indicated by labelling of the parameters as M, U or C, and indenting all subparameters under the parameter. Presence of the subparameters
42、 is always dependent on he presence of the parameter that they appear under (for example, an optional parameter may have subparameters; if the parameter is not supplied, then no subparameters may be supplied). The descriptions of parameters in this specification make reference to types, in order to
43、describe the allowable values for such parameters. The types referenced are defined in ISOIIEC 8824. 3.5.2 AddressinP in DLMS The DLMS specification does not provide the means for naming and addressing of a peer DLMS user or peer DLPM. Within OS1 and within DCP, the identification and addressing of
44、peer application entities is carricd out through the use of ACSE services defined in IS0 8649. After such an association between peers has succeeded, all of the DLMS PDUs flow between these peers over the (A-I)-LAYER services. It is therefore not necessary for DLMS to carry addressing information. A
45、dditional information on naming and addressing may be found in the application layer specification. EN 61334-4-41 : 1996 3.5.3 Sentice conventions This specification uses the descriptive conventions contained in the OS1 Service Conventions (ISAEUIR 850s). nie OS1 service conventions define the inter
46、actions between the DLMS user and the DLMS provider. Infomation is passed between the DLMS user and the DLMS provider by service primitives, which may convey parameters. The following remarks apply to the use of this model: a) iSO/iECYR 8509 defines a model for the service provided by a layer of the
47、 OS1 reference model. The DLMS service does not correspond to such a layer (it describes a part of the application layer) but the model used is identical in ail other respects; b) at any instant in time, an AE has multiple service requests outstanding, each proceeding independently of the others. NO
48、TE- It should be noted that the DLMS user/DLMS provider distinction is an abstraction, and may not neassariiy correspond to a realization of DLMS in any particular system. 3.5.4 Sendinp and receivina DLMS user and DUM This specification makes use of the tenns sending and receiving DLMS users. The se
49、nding DLMS UsCr is the DLMS user that issues a request or response service primitive. The receiving DLMS user is the DLMS user that receives an indication or confirmation service primitive. NOTE - It is important to note that, in the course of completion of a confirmed DIMS service, both DLMS users will be sender and receiver at the same time. The first DLMS user sends the request and receives the oonfinnation, while the second DLMS user receives the indication and sends the response. This specification makes ust of the terms sending and receiving DLPMs.
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