SIST EN 62453-2:2010
(Main)Field device tool interface specification -- Part 2: Concepts and detailed description
Field device tool interface specification -- Part 2: Concepts and detailed description
This part of IEC 62453 explains the common principles of the field device tool concept. These principles can be used in various industrial applications such as engineering systems, configuration programs and monitoring and diagnostic applications. This standard specifies the general objects, general object behavior and general object interactions that provide the base of FDT.
Field Device Tool (FDT)-Schnittstellenspezifikation - Teil 2: Konzept und grundlegende Beschreibung
Spécification des interfaces des outils des dispositifs de terrain (FDT) - Partie 2: Concepts et description détaillée
L'IEC 62453-2:2009 explique les principes courants du concept de l'outil des dispositifs de terrain. Ces principes peuvent être utilisés dans diverses applications industrielles telles que les systèmes d'ingénierie, les programmes de configuration et les applications de surveillance et de diagnostic. La présente norme spécifie les objets généraux, leur comportement ainsi que les interactions entre eux qui fournit la base du FDT. La présente version bilingue (2014-04) correspond à la version anglaise monolingue publiée en 2009-06.
Specifikacija vmesnika orodja procesne naprave - 2. del: Osnutki in podrobna razlaga (IEC 62453-2:2009)
Ta del IEC 62453 razloži skupna načela osnutka orodja procesne naprave. Ta načela se lahko uporabljajo v različnih industrijskih aplikacijah, kot so strojni sistemi, konfiguracijski programi, aplikacije za spremljanje in diagnostične aplikacije. Ta standard opredeljuje splošne objekte, splošno vedenje objekta in splošne interakcije objekta, ki zagotavljajo osnovo orodja procesne naprave.
General Information
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Standards Content (Sample)
SLOVENSKI STANDARD
SIST EN 62453-2:2010
01-januar-2010
Specifikacija vmesnika orodja procesne naprave - 2. del: Osnutki in podrobna
razlaga (IEC 62453-2:2009)
Field device tool interface specification -- Part 2: Concepts and detailed description
Field Device Tool (FDT)-Schnittstellenspezifikation - Teil 2: Konzept und grundlegende
Beschreibung
Spécification des interfaces des outils des dispositifs de terrain (FDT) - Partie 2:
Concepts et description détaillée
Ta slovenski standard je istoveten z: EN 62453-2:2009
ICS:
25.040.40 Merjenje in krmiljenje Industrial process
industrijskih postopkov measurement and control
35.240.50 Uporabniške rešitve IT v IT applications in industry
industriji
SIST EN 62453-2:2010 en,fr
2003-01.Slovenski inštitut za standardizacijo. Razmnoževanje celote ali delov tega standarda ni dovoljeno.
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SIST EN 62453-2:2010
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SIST EN 62453-2:2010
EUROPEAN STANDARD
EN 62453-2
NORME EUROPÉENNE
October 2009
EUROPÄISCHE NORM
ICS 25.040.40; 35.100.05; 35.110
English version
Field device tool (FDT) interface specification -
Part 2: Concepts and detailed description
(IEC 62453-2:2009)
Spécification des interfaces des outils Field Device Tool (FDT)-
des dispositifs de terrain (FDT) - Schnittstellenspezifikation -
Partie 2: Concepts et description détaillée Teil 2: Konzept
(CEI 62453-2:2009) und grundlegende Beschreibung
(IEC 62453-2:2009)
This European Standard was approved by CENELEC on 2009-08-01. CENELEC members are bound to comply
with the CEN/CENELEC Internal Regulations which stipulate the conditions 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 three official versions (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 official versions.
CENELEC members are the national electrotechnical committees 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 Kingdom.
CENELEC
European Committee for Electrotechnical Standardization
Comité Européen de Normalisation Electrotechnique
Europäisches Komitee für 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 62453-2:2009 E
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SIST EN 62453-2:2010
EN 62453-2:2009 - 2 -
Foreword
The text of document 65E/124/FDIS, future edition 1 of IEC 62453-2, prepared by SC 65E, Devices and
integration in enterprise systems, of IEC TC 65, Industrial-process measurement, control and automation,
was submitted to the IEC-CENELEC parallel vote and was approved by CENELEC as EN 62453-2 on
2009-08-01.
The following dates were fixed:
– latest date by which the EN has to be implemented
at national level by publication of an identical
national standard or by endorsement (dop) 2010-05-01
– latest date by which the national standards conflicting
with the EN have to be withdrawn (dow) 2012-08-01
Annex ZA has been added by CENELEC.
__________
Endorsement notice
The text of the International Standard IEC 62453-2:2009 was approved by CENELEC as a European
Standard without any modification.
__________
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SIST EN 62453-2:2010
- 3 - EN 62453-2:2009
Annex ZA
(normative)
Normative references to international publications
with their corresponding European publications
The following referenced documents are indispensable for the application of this document. For dated
references, only the edition cited applies. For undated references, the latest edition of the referenced
document (including any amendments) applies.
NOTE When an international publication has been modified by common modifications, indicated by (mod), the relevant EN/HD
applies.
Publication Year Title EN/HD Year
IEC 61131 Series Programmable controllers EN 61131 Series
IEC/TR 62390 2005 Common automation device - – –
Profile guideline
IEC 62453-1 2009 Field device tool (FDT) interface specification - EN 62453-1 2009
Part 1: Overview and guidance
IEC 62453-3xy Series Field device tool (FDT) interface specification - EN 62453-3xy Series
Part 3xy: Communication profile integration
IEC/TR 62453-41 2009 Field device tool interface specification - CLC/TR 62453-41 2009
Part 41: Object model integration profile -
Common object model
ISO/IEC 19501 2005 Information technology - – –
Open Distributed Processing -
Unified Modeling Language (UML)
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SIST EN 62453-2:2010
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SIST EN 62453-2:2010
IEC 62453-2
®
Edition 1.0 2009-06
INTERNATIONAL
STANDARD
Field device tool (FDT) interface specification –
Part 2: Concepts and detailed description
INTERNATIONAL
ELECTROTECHNICAL
COMMISSION
PRICE CODE
XG
ICS 25.040.40; 35.100.05; 35.110 ISBN 2-8318-1050-4
® Registered trademark of the International Electrotechnical Commission
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SIST EN 62453-2:2010
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CONTENTS
FOREWORD.10
INTRODUCTION.12
1 Scope.13
2 Normative references .13
3 Terms, definitions, symbols, abbreviated terms and conventions .13
3.1 Terms and definitions .13
3.2 Symbols and abbreviated terms.14
3.3 Conventions .14
3.3.1 State availability statement.14
3.3.2 Data type names and references to data types .14
4 Fundamentals.14
4.1 General .14
4.2 Abstract FDT model.14
4.2.1 FDT model overview.14
4.2.2 Frame Application (FA).18
4.2.3 Device Type Manager (DTM) .18
4.2.4 Presentation object.22
4.2.5 Channel object .23
4.3 Modularity .24
4.4 Bus categories .25
4.5 System and FDT topology .25
4.6 Peer to peer and nested communication.27
4.7 DTM, DTM Device Type and Hardware Identification Information .28
4.7.1 DTM and DTM Device Type.28
4.7.2 Supported hardware identification.29
4.7.3 Connected Hardware Identification .30
4.8 DTM data persistence and synchronization .30
4.9 DTM device parameter access .31
4.10 DTM state machine .32
4.10.1 DTM states .32
4.10.2 ‘Communication allowed’ sub-states .33
4.11 Basic operation phases .34
4.11.1 Roles and access rights.34
4.11.2 Operation phases .34
4.12 FDT version interoperability.35
4.12.1 Version interoperability overview .35
4.12.2 DTM and device versions .36
4.12.3 Persistence .36
4.12.4 Nested communication .36
5 FDT session model and use cases .37
5.1 Session model overview .37
5.2 Actors .38
5.3 Use cases .40
5.3.1 Use case overview .40
5.3.2 Observation.40
5.3.3 Operation .40
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5.3.4 Maintenance.44
5.3.5 Planning .48
5.3.6 OEM service.51
5.3.7 Administration .52
6 General concepts .53
6.1 Address management.53
6.2 Scanning and DTM assignment .53
6.2.1 Scanning introduction .53
6.2.2 Scanning .54
6.2.3 DTM assignment .54
6.2.4 Manufacturer specific device identification.54
6.2.5 Scan for communication hardware .55
6.3 Configuration of fieldbus master or communication scheduler.55
6.4 Slave redundancy.56
6.4.1 Redundancy overview.56
6.4.2 Redundancy support in Frame Application.57
6.4.3 Parent component for redundant fieldbus .58
6.4.4 Redundancy support in Device DTM .58
6.4.5 Scan and redundant slaves .59
7 FDT service specification .59
7.1 Service specification overview.59
7.2 DTM services .60
7.2.1 General services .60
7.2.2 DTM services related to installation .62
7.2.3 DTM services related to DTM/device information .62
7.2.4 DTM services related to the DTM state machine.64
7.2.5 DTM services related to functions.67
7.2.6 DTM services related to channel objects.69
7.2.7 DTM services related to documentation .70
7.2.8 DTM services to access the instance data .70
7.2.9 DTM services to evaluate the instance data.71
7.2.10 DTM services to access the device data .72
7.2.11 DTM services related to network management information .74
7.2.12 DTM services related to online operation.74
7.2.13 DTM services related to data synchronization.76
7.2.14 DTM services related to import and export.78
7.3 Presentation object services.78
7.4 Channel object service .78
7.4.1 Channel object service introduction .78
7.4.2 Service ReadChannelInformation .78
7.4.3 Service WriteChannelInformation.79
7.5 Process Channel object services .79
7.5.1 Services for IO related information .79
7.6 Communication Channel object services .80
7.6.1 Services related to communication .80
7.6.2 Services related to sub-topology management.84
7.6.3 Services related to GUI and functions.86
7.6.4 Services related to scan .87
7.7 Frame Application services.87
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7.7.1 General state availability .87
7.7.2 FA services related to general events.87
7.7.3 FA services related to topology management.89
7.7.4 FA services related to redundancy.91
7.7.5 FA services related to storage of DTM data .92
7.7.6 FA services related to DTM data synchronization .93
7.7.7 FA services related to presentation .94
7.7.8 FA Services related to audit trail.96
8 FDT dynamic behavior.96
8.1 Generate FDT topology .96
8.1.1 FDT topology generation triggered by the Frame Application .96
8.1.2 FDT topology generation triggered by the DTM.97
8.2 Address setting .98
8.2.1 Address setting introduction .98
8.2.2 Set or modify device address – with user interface .98
8.2.3 Set or modify device address – without user interface .98
8.2.4 Display or modify all child device addresses with user interface .99
8.3 Communication .100
8.3.1 Communication overview .100
8.3.2 Peer to peer communication .100
8.3.3 Nested communication .100
8.3.4 Device initiated data transfer .101
8.4 Scanning and DTM assignment .102
8.5 Multi-user scenarios .103
8.5.1 General .103
8.5.2 Synchronized and non-synchronized locking mechanism for DTMs.105
8.5.3 Additional rules.107
8.6 Notification of changes .107
8.7 DTM instance data state machines .107
8.7.1 Instance data set introduction.107
8.7.2 Modifications state machine.108
8.7.3 Persistence state machine.109
8.7.4 Modification in device .109
8.7.5 Storage life cycle.110
8.8 Parent component handling redundant slave .111
8.9 DTM upgrade .112
8.9.1 General rules.112
8.9.2 Saving data from a DTM to be upgraded.113
8.9.3 Loading data in the replacement DTM .113
Annex A (normative) FDT data types definition . 115
Figure 1 – Part 2 of the IEC 62453 series .12
Figure 2 – Abstract FDT model .15
Figure 3 – Frame Application with integrated Communication Channel .18
Figure 4 – Device Type Manager (DTM).19
Figure 5 – Communication DTM.19
Figure 6 – Device DTM .20
Figure 7 – Gateway DTM .20
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Figure 8 – Module DTM .21
Figure 9 – Block Type Manager (BTM).22
Figure 10 – Presentation object .22
Figure 11 – Channel object .23
Figure 12 – Combined Process / Communication Channel .24
Figure 13 – FDT topology for a simple system topology .25
Figure 14 – FDT topology for a complex system topology .26
Figure 15 – Peer to peer communication.27
Figure 16 – Nested communication .28
Figure 17 – DTM, DTM Device Type and Device Identification Information.29
Figure 18 – Connected Hardware Identification.30
Figure 19 – FDT storage and synchronization mechanisms.31
Figure 20 – DTM state machine .32
Figure 21 – Substates of communication allowed.33
Figure 22 – Main Use Case Diagram.38
Figure 23 – Observation Use Cases.40
Figure 24 – Operation Use Cases .41
Figure 25 – Maintenance use cases.44
Figure 26 – Planning use cases .49
Figure 27 – OEM service .51
Figure 28 – Administrator use cases .52
Figure 29 – Address setting via DTM presentation object.53
Figure 30 – Fieldbus scanning .54
Figure 31 – Fieldbus master configuration tool as part of a DTM.56
Figure 32 – Redundancy scenarios .57
Figure 33 – FDT topology generation triggered by the Frame Applications.97
Figure 34 – FDT topology generation triggered by a DTM .97
Figure 35 – Set or modify device address – with user interface.98
Figure 36 – Set or modify device address – with user interface.99
Figure 37 – Set or modify all device addresses – with user interface.99
Figure 38 – Peer to peer communication.100
Figure 39 – Nested communication .101
Figure 40 – Device initiated data transfer. 102
Figure 41 – Scanning and DTM assignment .103
Figure 42 – Multi-user system .104
Figure 43 – General synchronized locking mechanism .105
Figure 44 – General non-synchronized locking mechanism . 106
Figure 45 – Parameterization in case of synchronized locking mechanism . 106
Figure 46 – Modifications state machine of instance data .108
Figure 47 – Persistence state machine of instance data. 109
Figure 48 – Management of redundant topology .112
Figure 49 – Associating data to a dataSetId.113
Figure 50 – Loading data for a supported dataSetId.114
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SIST EN 62453-2:2010
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Table 1 – Description of FDT objects .15
Table 2 – Description of associations between FDT objects .16
Table 3 – Transitions of DTM states.33
Table 4 – Transitions of DTM ‘communication allowed’ sub states .33
Table 5 – Operation phases .35
Table 6 – Actors .39
Table 7 – Operation Use Cases .41
Table 8 – Maintenance use cases .45
Table 9 – Planning use cases .49
Table 10 – Administrator use cases .52
Table 11 – Arguments for service PrivateDialogEnabled .60
Table 12 – Arguments for service SetLanguage .61
Table 13 – Arguments for service SetSystemGuiLabel .61
Table 14 – Arguments for service GetTypeInformation (for DTM) .62
Table 15 – Arguments for service GetTypeInformation (for BTM) .62
Table 16 – Arguments for service GetIdentificationInformation (for DTM).63
Table 17 – Arguments for service GetIdentificationInformation (for BTM) .63
Table 18 – Arguments for service Hardware information (for DTM) .63
Table 19 – Arguments for service GetActiveTypeInfo .64
Table 20 – Arguments for service GetActiveTypeInfo (for BTM) .64
Table 21 – Arguments for service Initialize (for DTM).64
Table 22 – Arguments for service Initialize (for BTM) .65
Table 23 – Arguments for service SetLinkedCommunicationChannel .65
Table 24 – Arguments for service E
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