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eLibrary > BS EN 62453-1:2017 Field Device Tool (FDT) interface specification - Overview and guidance >

BS EN 62453-1:2017 Field Device Tool (FDT) interface specification - Overview and guidance, 2017

30293591-VOR.pdf [Go to Page]
English [Go to Page]
CONTENTS
FOREWORD
INTRODUCTION
1 Scope
2 Normative references
3 Terms, definitions, symbols, abbreviations and conventions [Go to Page]
3.1 Terms and definitions
3.2 Abbreviations
3.3 Conventions
4 FDT overview [Go to Page]
4.1 State of the art
4.2 Objectives of FDT [Go to Page]
4.2.1 General features
4.2.2 Device and module manufacturer benefits
4.2.3 System manufacturer and integrator benefits
4.2.4 Other applications
4.3 FDT model [Go to Page]
4.3.1 General
4.3.2 Frame Applications
4.3.3 Device Type Manager
4.3.4 Communication Channel concept
4.3.5 Presentation object
5 Structure of the IEC 62453 series [Go to Page]
5.1 Structure overview
5.2 Part 2 – Concepts and detailed description
5.3 Parts 3xy – Communication profile integration [Go to Page]
5.3.1 General
5.3.2 Communication profile integration – IEC 61784 CPF 1
5.3.3 Communication profile integration – IEC 61784 CPF 2
5.3.4 Communication profile integration – IEC 61784 CP 3/1 and 3/2
5.3.5 Communication profile integration – IEC 61784 CP 3/4, CP 3/5 and 3/6
5.3.6 Communication profile integration – IEC 61784 CPF 6
5.3.7 Communication profile integration – IEC 61784 CPF 9
5.3.8 Communication profile integration – IEC 61784 CPF 15
5.4 Parts 4z – Object model integration profiles [Go to Page]
5.4.1 General
5.4.2 Object model integration profile – Common object model (COM)
5.4.3 Object model integration profile – Common language infrastructure (CLI)
5.5 Parts 51-xy/52-xy – Communication profile implementation [Go to Page]
5.5.1 General
5.5.2 Communication profile implementation – IEC 61784 CPF 1
5.5.3 Communication profile implementation – IEC 61784 CPF 2
5.5.4 Communication profile implementation – IEC 61784 CP 3/1 and 3/2
5.5.5 Communication profile implementation – IEC 61784 CP 3/4, CP 3/5 and 3/6
5.5.6 Communication profile implementation – IEC 61784 CPF 6
5.5.7 Communication profile implementation – IEC 61784 CPF 9
5.5.8 Communication profile implementation – IEC 61784 CPF 15
5.6 Parts 6z – DTM styleguides [Go to Page]
5.6.1 General
5.6.2 Device Type Manager (DTM) styleguide for common object model
5.6.3 Field Device Tool (FDT) styleguide for common language infrastructure
6 Relation of the IEC 62453 series to other standardization activities
7 Migration to DTM
8 How to read IEC 62453 [Go to Page]
8.1 Architecture
8.2 Dynamic behavior
8.3 Structured data types
8.4 Fieldbus communication
Annex A (informative) UML notation [Go to Page]
A.1 General
A.2 Class diagram
A.3 Statechart diagram
A.4 Use case diagram
A.5 Sequence diagram
Annex B (informative) Implementation policy
Bibliography
Figures [Go to Page]
Figure 1 − Different tools and fieldbuses result in limited integration
Figure 2 – Full integration of all devices and modules into a homogeneous system
Figure 3 – General architecture and components
Figure 4 – FDT software architecture
Figure 5 – General FDT client/server relationship
Figure 6 – Typical FDT channel architecture
Figure 7 – Channel/parameter relationship
Figure 8 – Structure of the IEC 62453 series
Figure 9 – Standards related to IEC 62453 in an automation hierarchy
Figure 10 – Standards related to IEC 62453 – Grouped by purpose
Figure 11 – DTM implementations
Figure A.1 – Note
Figure A.2 – Class
Figure A.3 – Association
Figure A.4 – Composition
Figure A.5 – Aggregation
Figure A.6 – Dependency
Figure A.7 – Abstract class, generalization and interface
Figure A.8 – Multiplicity
Figure A.9 – Elements of UML statechart diagrams
Figure A.10 – Example of UML state chart diagram
Figure A.11 – UML use case syntax
Figure A.12 – UML sequence diagram
Table 1 – Overview of related standards
Français [Go to Page]
SOMMAIRE
AVANT-PROPOS
INTRODUCTION
1 Domaine d'application
2 Références normatives
3 Termes, définitions, symboles, abréviations et conventions [Go to Page]
3.1 Termes et définitions
3.2 Abréviations
3.3 Conventions
4 Vue d'ensemble des outils des dispositifs de terrain [Go to Page]
4.1 État de la technique
4.2 Objectifs des outils FDT [Go to Page]
4.2.1 Caractéristiques générales
4.2.2 Avantages pour les fabricants d’équipements et de modules
4.2.3 Avantages pour le fabricant et l'intégrateur de systèmes
4.2.4 Autres applications
4.3 Modèle des outils FDT [Go to Page]
4.3.1 Généralités
4.3.2 Applications-cadres
4.3.3 Gestionnaire de type d’équipements (DTM)
4.3.4 Concept de voie de communication
4.3.5 Objet «presentation»
5 Structure de la série IEC 62453 [Go to Page]
5.1 Vue d'ensemble de la structure
5.2 Partie 2 – Concepts et description détaillée
5.3 Parties 3xy – Intégration des profils de communication [Go to Page]
5.3.1 Généralités
5.3.2 Intégration des profils de communication – CPF 1 de l’IEC 61784
5.3.3 Intégration des profils de communication – CPF 2 de l’IEC 61784
5.3.4 Intégration des profils de communication – CP 3/1 et 3/2 de l’IEC 61784
5.3.5 Intégration des profils de communication – CP 3/5 et 3/6 de l’IEC 61784
5.3.6 Intégration des profils de communication – CPF 6 de l’IEC 61784
5.3.7 Intégration des profils de communication – CPF 9 de l’IEC 61784
5.3.8 Intégration des profils de communication – CPF 15 de l’IEC 61784
5.4 Parties 4z – Profils d'intégration des modèles d'objets [Go to Page]
5.4.1 Généralités
5.4.2 Profil d'intégration des modèles d'objets – Modèle d'objet commun (COM ou Common object model en anglais)
5.4.3 Profil d'intégration des modèles d'objets – Infrastructure commune de langage (CLI ou Common language infrastructure en anglais)
5.5 Parties 51-xy/52-xy – Mise en œuvre des profils de communication [Go to Page]
5.5.1 Généralités
5.5.2 Mise en œuvre des profils de communication – CPF 1 de l’IEC 61784
5.5.3 Mise en œuvre des profils de communication – CPF 2 de l’IEC 61784
5.5.4 Mise en œuvre des profils de communication – CP 3/1 et 3/1 de l’IEC 61784
5.5.5 Mise en œuvre des profils de communication – CP 3/4, CP 3/5 et 3/6 de l’IEC 61784
5.5.6 Mise en œuvre des profils de communication – CPF 6 de l’IEC 61784
5.5.7 Mise en œuvre des profils de communication – CPF 9 de l’IEC 61784
5.5.8 Mise en œuvre des profils de communication – CPF 15 de l’IEC 61784
5.6 Parties 6z – Guides stylistiques de gestionnaires DTM [Go to Page]
5.6.1 Généralités
5.6.2 Guide stylistique du gestionnaire de type d’équipements (DTM) pour le modèle d'objet commun
5.6.3 Guide stylistique de l'outil de dispositif de terrain (FDT) pour l'infrastructure commune de langage
6 Relation de la série IEC 62453 avec d'autres activités de normalisation
7 Migration vers le gestionnaire DTM
8 Procédure de lecture de l'IEC 62453 [Go to Page]
8.1 Architecture
8.2 Comportement dynamique
8.3 Types structurés de données
8.4 Communication des bus de terrain
Annexe A (informative) Notation UML [Go to Page]
A.1 Généralités
A.2 Diagramme de classe
A.3 Diagramme d'états
A.4 Diagramme de cas d'utilisation
A.5 Diagramme de séquences
Annexe B (informative) Politique de mise en œuvre
Bibliographie
Figures [Go to Page]
Figure 1 − Différents outils et bus de terrain entraînent une intégration limitée
Figure 2 – Intégration complète de tous les équipementset modules dans un système homogène
Figure 3 – Architecture générale et composants
Figure 4 – Architecture logicielle des outils FDT
Figure 5 – Relation générale client/serveur des outils FDT
Figure 6 – Architecture typique des voies des outils des dispositifs de terrain
Figure 7 – Relation Voie/Paramètres
Figure 8 – Structure de la série IEC 62453
Figure 9 – Normes associées à l'IEC 62453 dans une hiérarchie d'automatisation
Figure 10 – Normes associées à l'IEC 62453 – regroupées par but
Figure 11 – Mises en œuvre de gestionnaires DTM
Figure A.1 – Note
Figure A.2 – Classe
Figure A.3 – Association
Figure A.4 – Composition
Figure A.5 – Agrégation
Figure A.6 – Dépendance
Figure A.7 – Classe abstraite, généralisation et interface
Figure A.8 – Multiplicité
Figure A.9 – Éléments de diagrammes d'états UML
Figure A.10 – Exemple de diagramme d'états UML
Figure A.11 – Syntaxe de cas d'utilisation UML
Figure A.12 – Diagramme de séquences UML
Tableau 1 – Vue d'ensemble des normes associées [Go to Page]

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