1、raising standards worldwideNO COPYING WITHOUT BSI PERMISSION EXCEPT AS PERMITTED BY COPYRIGHT LAWBSI Standards PublicationHome and Building ElectronicSystems (HBES) Part 3-3: Aspects of application HBES Interworkingmodel and common HBES data typesBS EN 50090-3-3:2009National forewordThis British Sta
2、ndard is the UK implementation of EN 50090-3-3:2009.The UK participation in its preparation was entrusted to Technical CommitteeIST/6, Data communications.A list of organizations represented on this committee can be obtained onrequest to its secretary.This publication does not purport to include all
3、 the necessary provisions of acontract. Users are responsible for its correct application. BSI 2010ISBN 978 0 580 64399 6ICS 97.120Compliance with a British Standard cannot confer immunity fromlegal obligations.This British Standard was published under the authority of the StandardsPolicy and Strate
4、gy Committee on 31 January 2010Amendments issued since publicationAmd. No. Date Text affectedBRITISH STANDARDBS EN 50090-3-3:2009EUROPEAN STANDARD EN 50090-3-3 NORME EUROPENNE EUROPISCHE NORM May 2009 CENELEC European Committee for Electrotechnical Standardization Comit Europen de Normalisation Elec
5、trotechnique Europisches Komitee fr Elektrotechnische Normung Central Secretariat: Avenue Marnix 17, B - 1000 Brussels 2009 CENELEC - All rights of exploitation in any form and by any means reserved worldwide for CENELEC members. Ref. No. EN 50090-3-3:2009 E ICS 97.120 English version Home and Build
6、ing Electronic Systems (HBES) - Part 3-3: Aspects of application - HBES Interworking model and common HBES data types Systmes lectroniques pour les foyers domestiques et les btiments (HBES) - Partie 3-3: Aspects de lapplication - Modle dinter-fonctionnement des HBES et types de donnes communes Elekt
7、rische Systemtechnik fr Heim und Gebude (ESHG) - Teil 3-3: Anwendungsaspekte - ESHG-Interworking-Modell und bliche ESHG-Datenformate This European Standard was approved by CENELEC on 2008-12-01. CENELEC members are bound to comply with the CEN/CENELEC Internal Regulations which stipulate the conditi
8、ons 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 Central Secretariat or to any CENELEC member. This European Standard exists in two
9、official versions (English, French). 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 official versions. CENELEC members are the national electrotechnical committe
10、es of Austria, Belgium, Bulgaria, Cyprus, the Czech Republic, 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
11、Kingdom. BS EN 50090-3-3:2009EN 50090-3-3:2009 - 2 - Foreword This European Standard was prepared by the Technical Committee CENELEC TC 205, Home and Building Electronic Systems (HBES), joined by the co-operating partner KNX Association. The text of the draft was submitted to the Unique Acceptance P
12、rocedure and was approved by CENELEC as EN 50090-3-3 on 2008-12-01. CENELEC takes no position concerning the evidence, validity and scope of patent rights. KNX Association as Cooperating Partner to CENELEC confirms that to the extent that the standard contains patents and like rights, the KNX Associ
13、ations members are willing to negotiate licenses thereof with applicants throughout the world on fair, reasonable and non-discriminatory terms and conditions. KNX Association Tel.: + 32 2 775 85 90 De Kleetlaan 5, bus 11 Fax.: + 32 2 675 50 28 B - 1831 Diegem e-mail: infoknx.org www.knx.org Attentio
14、n is drawn to the possibility that some of the elements of this standard may be the subject of patent rights other than those identified above. CENELEC shall not be held responsible for identifying any or all such patent rights. The following dates were fixed: latest date by which the EN has to be i
15、mplemented at national level by publication of an identical national standard or by endorsement (dop) 2009-12-01 latest date by which the national standards conflicting with the EN have to be withdrawn (dow) 2011-12-01 EN 50090-3-3 is part of the EN 50090 series of European Standards, which will com
16、prise the following parts: Part 1: Standardization structure Part 2: System overview Part 3: Aspects of application Part 4: Media independent layers Part 5: Media and media dependent layers Part 6: Interfaces Part 7: System management Part 8: Conformity assessment of products Part 9: Installation re
17、quirements _BS EN 50090-3-3:2009- 3 - EN 50090-3-3:2009 Contents Introduction 5 1 Scope 6 2 Normative references . 6 3 Terms, definitions and abbreviations 7 3.1 Terms and definitions . 7 3.2 Abbreviations 7 4 HBES Interworking model 7 4.1 Principles of HBES Interworking 11 4.2 Busload 12 4.3 Datapo
18、int Type error handling 13 4.4 Interpretability of data and data integrity 15 5 General Functional Block Design and Implementation Rules 15 5.1 Introduction . 15 5.2 Describe the Application Domain . 15 5.3 Describe the Application 15 5.4 Describe the Functional Block 19 5.5 Describing the Datapoint
19、 Types . 29 Annex A (informative) Common HBES data types 38 Figures Figure 1 The HBES Interworking Model An Application Domain can contain one or more Applications . 7 Figure 2 The HBES Interworking Model An Application Model may contain one or more Functional Blocks . 8 Figure 3 Standard representa
20、tion for Functional Blocks 8 Figure 4 Datapoints indicated in Functional Blocks 9 Figure 5 Functional Blocks grouped in devices and linked 9 Figure 6 Functional Block with 5 Datapoints 10 Figure 7 The information contained in a Datapoint Type definition 10 Figure 8 Example of an Interworking specifi
21、cation . 11 Figure 9 Functional Block diagram (Example) . 20 Figure 10 Table listing separate datapoints of a functional block 21 Figure 11 Specification form for Inputs and Outputs 22 Figure 12 Specification form for Parameters and Diagnostic Data 29 Figure 13 Example of multi-state datapoint 32 Fi
22、gure 14 Datapoint Type specification form 34 Figure A.1 Structure of Datapoint Types 38 Figure A.2 December 12, 2006 encoded according DPT_Date in an A_GroupValue_Write-frame (example on TP1) 39 BS EN 50090-3-3:2009EN 50090-3-3:2009 - 4 - Tables Table 1 Use of heart-beat . 12 Table 2 Authorisation l
23、evel names . 27 Table 3 Datatypes notation styles 35 Table A.1 Compatibility rules 67 BS EN 50090-3-3:2009- 5 - EN 50090-3-3:2009 Introduction Interworking between devices signifies that these products send and receive datagrams and are able to properly understand and react on them. This ability is
24、provided without additional equipment (like translators or gateways). NOTE Media couplers are needed if different media are used in an installation. The market requires Interworking for a multi-vendor approach, this is, products from different manufacturers can interwork in a certain application seg
25、ment or domain as well as across different applications (cross discipline Interworking). Such an Interworking is only possible if a set of requirements is complied with as defined in an Interworking model. For this, Functional Blocks need to be defined, which in turn specify Datapoints and the commu
26、nication mechanisms to be used. Such a set of requirements is referred to as “Application Interworking Specifications“ (AIS). AIS allow Interworking independent of the implementation by a manufacturer. Besides the advantages for the user (multi-vendor offer) Interworking also allows a broad OEM mark
27、et and easy market access for niche-products providers. Furthermore Interworking allows the establishment of a common market infrastructure (i.e. common configuration tool, training, etc.) BS EN 50090-3-3:2009EN 50090-3-3:2009 - 6 - 1 Scope This European Standard gives general guidelines and recomme
28、ndations to ensure interworking between HBES devices made by different manufacturers. It also contains design guidelines for the design of Functional Blocks and new datapoint types, the building blocks of HBES interworking. In this way, the standard can be used as a basis to design application speci
29、fications relative to an Application Domain. If designed and supported by a large group of manufacturers, such application specifications will ensure to end customers a high degree of interoperability between products based on the HBES Communication System of different manufacturers. This European S
30、tandard is used as a product family standard. It is not intended to be used as a stand-alone standard. 2 Normative references The following referenced documents are indispensable for the application of this document. For dated references, only the edition cited applies. For undated references, the l
31、atest edition of the referenced document (including any amendments) applies. EN 50090-1 1)Home and Building Electronic Systems (HBES) Part 1: Standardization structure EN 50090-3-2:2004 Home and Building Electronic Systems (HBES) Part 3-2: Aspects of application User process for HBES Class 1 EN 5009
32、0-4-1:2004 Home and Building Electronic Systems (HBES) Part 4-1: Media independent layers Application Layer for HBES Class 1 EN 50090-4-2: 2004 Home and Building Electronic Systems (HBES) Part 4-2: Media independent layers Transport layer, network layer and general parts of data link layer for HBES
33、Class 1 1)Under consideration. BS EN 50090-3-3:2009- 7 - EN 50090-3-3:2009 3 Terms, definitions and abbreviations 3.1 Terms and definitions For the purposes of this document, the definitions given in EN 50090-1 apply. 3.2 Abbreviations AIS Application Interworking Specifications COV Change of Value
34、DMA Direct Memory Access DP Data Point DPT Datapoint type DPT ID Datapoint type identifier FB Functional Block GO Group Object IO Interface Object lsb least significant bit M Mandatory msb most significant bit MSB Most Significant Byte NA Not Applicable O Optional PDT Property Data Type PID Property
35、 Identifier OEM Original Equipment Manufacturer 4 HBES Interworking model HBES Interworking can be applied in many application domains. Each Application Domain can encompass one or more Applications. Application Application Domain Figure 1 - The HBES Interworking Model An Application Domain can cont
36、ain one or more Applications The Application Modelling or the process of analysing, deciding on the solution and specifying the model for such an Application needs to be agreed upon amongst manufacturers in Application Specification Groups. BS EN 50090-3-3:2009EN 50090-3-3:2009 - 8 - Applications sh
37、all not be defined in terms of products, but analysed and split up into Functional Blocks, which communicate with one another. The term Distributed Application indicates this approach: the total functionality of an Application is spread over a number of Functional Blocks implemented in various devic
38、es in the network. A Functional Block transports its data over the bus via one or more Datapoints (these are Inputs, Outputs, Parameters and Diagnostic Data). A Functional Block thus describes the standard specification of the chosen solution for one given task of an application. These Datapoints an
39、d their described functionality are implemented by the product developer. The following picture shows the Interworking model as defined so far. Functional BlockApplication ModelApplication DomainFigure 2 - The HBES Interworking Model An Application Model may contain one or more Functional Blocks The
40、 Functional Blocks shall be described as objects; this is a set of Datapoints and a well-defined behaviour. The standard graphical representation for a Functional Block shall be the following: Input(s) Functional Block name Output(s) Name Input I1 DPT I1 I1 O1 DPT O1 Name Output O1 Name Input I2 DPT
41、 I2 I2 Parameter(s) Diagnostic Data Name Parameter P1 DPT P1 P1 DD1 DPT DD1 Figure 3 - Standard representation for Functional Blocks BS EN 50090-3-3:2009- 9 - EN 50090-3-3:2009 The Datapoints that are typically Inputs shall be put on the left, the Outputs on the right, the Parameters on the left bel
42、ow the Inputs and the Diagnostic Data on the right below the Outputs. For each Datapoint, a name shall be given, an indication of its Datapoint Type and an abbreviation. Name Input I1 DPT I1 - I1 Name of the Datapoint Indication of the Datapoint type to be used. Abbreviation for the Datapoint Figure
43、 4 - Datapoints indicated in Functional Blocks A manufacturer may group one or more of these Functional Blocks, of the same or of different Applications, to build a device. Input(s) Functional BlockBOutput(s)ccc DPT I1- I1 O1DPT O1- O1I2DPT I2- I2Parameter(s)P1DPT P1- P1Functional BlockAOutput(s)O1D
44、PT O1- O1Parameter(s)P1DPT P1- P1P2DPT P2- P2Input(s) Functional BlockCOutput(s)I1DPT I1- O1DPT O1- O1O2DPT O2- O2Parameter(s)P1DPT P1- P1P2DPT P2- P2Device 1Device 2Figure 5 - Functional Blocks grouped in devices and linked For every Functional Block its behaviour shall be specified. This fixes its
45、 handling of its Datapoints and physical inputs and outputs (e.g. a state machine of a dimming actuator). A Datapoint is any interface over which data in the Functional Block can be set or received and/or transmitted (for its run-time operation). Every Functional Block may have one or more such Data
46、points. From the communication point of view, 4 classes of Datapoints can be distinguished (for more information see 5.3.3): NOTE These classes of Datapoints are defined in EN 50090-4-2, EN 50090-4-1 and EN 50090-3-2: Group Object Datapoint Interface Object Property Datapoint Polling Value Datapoint
47、 Memory Mapped Datapoint BS EN 50090-3-3:2009EN 50090-3-3:2009 - 10 - Functional Block GOPR Group Object Datapoint Interface Object Property Datapoint Polling Value Datapoint Memory Mapped Datapoint PV MMFigure 6 - Functional Block with 5 Datapoints From the access point of view another differentiat
48、ion of Datapoints is possible: Input: a value that is received and processed by the Functional Block. Output: the value resulting from the process of the Functional Block and to be provided to at least one other Functional Block. Parameter: a value that controls the process of handling the Input(s)
49、and generating the values of the Output(s). This access type is typically non-volatile or saved at reset. It is usually set by management functions. Diagnostic Data: a value that represents the local or internal status information of a Functional Block. It is not used for runtime communication to Inputs or Outputs of other FBs but serves for visualisation on a cent
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