BS EN 61158-6-24:2014
$215.11
Industrial communication networks. Fieldbus specifications – Application layer protocol specification. Type-24 Elements
| Published By | Publication Date | Number of Pages |
| BSI | 2014 | 126 |
IEC 61158-6-24:2014 defines the protocol provided to define the wire-representation of the service primitives defined in IEC 61158-5-24, and define the externally visible behaviour associated with their transfer. This standard specifies the protocol of the Type 24 fieldbus Application Layer, in conformance with the OSI Basic Reference Model (ISO/IEC 7498-1) and the OSI application layer structure (ISO/IEC 9545).
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 4 | Foreword Endorsement notice |
| 5 | Annex ZA (normative) Normative references to international publications with their corresponding European publications |
| 6 | English CONTENTS |
| 9 | INTRODUCTION |
| 10 | 1 Scope 1.1 General 1.2 Specifications |
| 11 | 1.3 Conformance 2 Normative references 3 Terms, definitions, abbreviations, symbols and conventions 3.1 Referenced terms and definitions |
| 13 | 3.2 Additional terms and definitions |
| 18 | 3.3 Abbreviations and symbols |
| 19 | 3.4 Conventions |
| 20 | Tables Table 1 – State transition descriptions Table 2 – Description of state machine elements |
| 21 | 4 Abstract syntax 4.1 Basic Data types Table 3 – Conventions used in state machines |
| 23 | 4.2 FAL PDU types |
| 24 | Figures Figure 1 – Tree structure of APDU types |
| 35 | 4.3 Detailed definitions of _FDCService-PDUs |
| 54 | 4.4 Device profile 5 Transfer syntax 5.1 Concepts |
| 55 | 5.2 Encode rules Figure 2 – Encode of Integer subtypes |
| 56 | Figure 3 – Example of transfer of INTEGER value Figure 4 – Encode of Unsigned subtypes |
| 57 | Figure 5 – Float32 type encode Figure 6 – Float64 type encode |
| 58 | Figure 7 – Bit field definition example with named bits |
| 59 | Figure 8 – Bit field definition example with field size |
| 60 | 6 Structure of FAL protocol state machine Figure 9 – SEQUENCE type encode |
| 62 | Figure 10 – Structure of FAL protocol state machines Table 4 – Mapping for Protocol State Machines |
| 63 | 7 AP-context state machine (APC SM) 7.1 Overview |
| 64 | 7.2 State descriptions Figure 11 – Statechart diagram of APCSM Table 5 – State descriptions of APC SM |
| 65 | 7.3 Triggering events 7.4 Action descriptions at state transitions Table 6 – Trigger event descriptions of APC SM Table 7 – Transitions of APC SM |
| 66 | 8 FAL service protocol machines (FSPM) 8.1 Overview 8.2 Field Deice Control Protocol Machine (FDC PM) |
| 67 | Table 8 – FDC protocol mode |
| 68 | Figure 12 – Example communication cycle of FDC master AP |
| 69 | Figure 13 – Example communication cycle of FDC slave AP |
| 70 | Figure 14 – Synchronous command communication in sync state |
| 71 | Figure 15 – Asynchronous command communication in sync state |
| 72 | Figure 16 – Asynchronous command communication in async state |
| 73 | Figure 17 – Event-driven communication |
| 74 | Figure 18 – Statechart diagram of FDCPM-M Table 9 – State descriptions of FDCPM-M |
| 75 | Table 10 – Trigger event descriptions of FDCPM-M |
| 76 | Table 11 – Transitions of main SM of FDCPM-M |
| 77 | Table 12 – Transitions of submachine of FDCPM-M |
| 80 | Figure 19 – Statechart diagram of FDCPM-S Table 13 – State descriptions of FDCPM-S |
| 81 | Table 14 – Trigger event descriptions of FDCPM-S |
| 82 | Table 15 – Transitions of main SM of FDCPM-S |
| 84 | Table 16 – Transitions of submachine of FDCPM-S |
| 87 | Figure 20 – Statechart diagram of FDCPM-MN Table 17 – State descriptions of FDCPM-MN |
| 88 | Table 18 – Trigger event descriptions of FDCPM-MN Table 19 – Transitions of main SM of FDCPM-MN Table 20 – Transitions of submachine of FDCPM-MN |
| 91 | 8.3 Message Protocol Machine (MSGPM) Figure 21 – PDU transmission flow for user message |
| 92 | Figure 22 – PDU transmission flow for one-way message |
| 93 | Figure 23 – Statechart diagram of MSGPM-RQ Table 21 – State descriptions of MSGPM-RQ |
| 94 | Table 22 – Trigger event descriptions of MSGPM-RQ Table 23 – Transitions of MSGPM-RQ |
| 95 | Figure 24 – Statechart diagram of MSGPM-RS Table 24 – State descriptions of MSGPM-RS |
| 96 | Table 25 – Trigger event descriptions of MSGPM-RS Table 26 – Transitions of MSGPM-RS |
| 97 | 9 Application relationship protocol machine (ARPM) 9.1 General 9.2 ARPM for FDC ASE Figure 25 – Example of single transfer process |
| 98 | Figure 26 – Example of dual transfer process |
| 99 | Figure 27 – Statechart diagram of ARPM-FDCM Table 27 – State descriptions of ARPM-FDCM |
| 101 | Table 28 – Trigger event descriptions of ARPM-FDCM |
| 102 | Table 29 – Transitions of main SM of ARPM-FDCM Table 30 – Transitions of submachine of ARPM-FDCM |
| 104 | Figure 28 – Statechart diagram of ARPM-FDCS Table 31 – State descriptions of ARPM-FDCS |
| 106 | Table 32 – Trigger event descriptions of ARPM-FDCS |
| 107 | Table 33 – Transitions of main SM of ARPM-FDCS |
| 108 | Table 34 – Transitions of submachine of ARPM-FDCS |
| 109 | Figure 29 – Statechart diagram of ARPM-FDCMN |
| 110 | Table 35 – State descriptions of ARPM-FDCMN Table 36 – Trigger event descriptions of ARPM-FDCMN Table 37 – Transitions of main SM of ARPM-FDCMN |
| 111 | 9.3 ARPM for MSG ASE (ARPM-MSG) Table 38 – Transitions of submachine of ARPM-FDCMN |
| 112 | Figure 30 – Statechart diagram of ARPM-MSG Table 39 – State descriptions of ARPM-MSG Table 40 – Trigger event descriptions of ARPM-MSG |
| 113 | 10 DLL mapping protocol machine (DMPM) Table 41 – Transitions of ARPM-MSG |
| 114 | Annex A (informative) Device profile and FDC command sets Table A.1 – Example of registered device profiles Table A.2 – Example command list of the profile ‘00’H |
| 115 | Annex B (normative) Virtual memory space and Device Information B.1 Overview Figure B.1 – Memory map of virtual memory space |
| 116 | B.2 Device Information B.2.1 Device identifier area structure B.2.2 Detail specifications of device IDs Figure B.2 – Memory map of device ID area |
| 117 | Table B.1 – Specifications of device IDs |
| 122 | Annex C (informative) Basic message function Table C.1 – Example of message command set |
| 123 | Bibliography |
