BS EN IEC 61158-5-2:2019

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Industrial communication networks. Fieldbus specifications – Application layer service definition. Type 2 elements

Published By	Publication Date	Number of Pages
BSI	2019	226

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Description

IEC 61158-5-2:2019 (E) defines the services provided to the FAL user at the boundary between the user and the application layer of the fieldbus reference model, and Systems Management at the boundary between the application layer and Systems Management of the fieldbus reference model. This standard specifies the structure and services of the Type 2 fieldbus application layer, in conformance with the OSI Basic Reference Model (ISO/IEC 7498-1) and the OSI application layer structure (ISO/IEC 9545) This fourth edition cancels and replaces the third edition published in 2014. This edition constitutes a technical revision. This edition includes the following significant technical changes with respect to the previous edition: •addition of a data type in 5.3.2; •clarifications of Object management ASE in 6.2.1;

•extensions of General ASE in 6.2.1.2.1; •extensions/clarifications of Identity ASE in 6.2.1.2.2;

•update of Message Router ASE in 6.2.1.2.4;

•extensions/clarifications of Time Sync ASE in 6.2.1.2.6; •updates of Parameter ASE in 6.2.1.2.7;

•updates of FAL ASE service specification in 6.2.1.3;

•extensions/clarifications of Connection manager ASE in 6.2.2;

•extensions/clarifications of Connection ASE in 6.2.3;

•extensions/clarifications of Application type in 6.3.1.4.5.

•miscellaneous editorial corrections.

PDF Catalog

PDF Pages	PDF Title
2	National foreword
5	Annex ZA(normative)Normative references to international publicationswith their corresponding European publications
7	CONTENTS
11	FOREWORD
13	INTRODUCTION
14	1 Scope 1.1 General
15	1.2 Specifications 1.3 Conformance 2 Normative references
17	3 Terms, definitions, symbols, abbreviated terms and conventions 3.1 ISO/IEC 74981 terms
18	3.2 ISO/IEC 8822 terms 3.3 ISO/IEC 9545 terms 3.4 ISO/IEC 88241 terms 3.5 Type 2 fieldbus data-link layer terms 3.6 Type 2 fieldbus application-layer specific definitions
26	3.7 Type 2 abbreviated terms and symbols
27	3.8 Conventions 3.8.1 Overview
28	3.8.2 General conventions 3.8.3 Conventions for class definitions
29	3.8.4 Conventions for service definitions
30	4 Common concepts 5 Data type ASE 5.1 General 5.2 Formal definition of data type objects
31	5.3 FAL defined data types 5.3.1 Fixed length types
36	5.3.2 String types
37	5.3.3 Structure types
40	Tables Table 1 – Valid IANA MIB printer codes for character set selection
41	5.4 Data type ASE service specification 6 Communication model specification 6.1 Concepts 6.1.1 General 6.1.2 General concepts
42	6.1.3 Relationships between ASEs
43	6.1.4 Naming and addressing Figures Figure 1 – Overview of ASEs and object classes
44	6.1.5 Data types Figure 2 – Addressing format using MAC, class, instance and attribute IDs
46	Table 2 – Common elements
47	Table 3 – ST language elements
48	Table 4 – Type conversion operations
50	Table 5 – Values of implementation-dependent parameters Table 6 – Extensions to IEC 611313:2003
51	6.2 ASEs 6.2.1 Object management ASE
65	Figure 3 – Identity object state transition diagram
66	Table 7 – Identity object state event matrix
68	Figure 4 – Explicit and Implicit Setting interaction
72	Figure 5 – Static Assembly state transition diagram Table 8 – Static Assembly state event matrix
73	Figure 6 – Dynamic Assembly state transition diagram Table 9 – Static Assembly instance attribute access
74	Table 10 – Dynamic Assembly state event matrix Table 11 – Dynamic Assembly instance attribute access
77	Table 12 – Message Router object Forward_Open parameters
81	Table 13 – Acknowledge Handler object state event matrix
82	Table 14 – Producing I/O application object state event matrix
84	Figure 7 – Typical timing relationships for acknowledged data production
85	Figure 8 – Example of a COS system with two acking devices Figure 9 – Message flow in COS connection – one Connection object, one consumer
86	Figure 10 – Message flow in COS connection – multiple consumers
89	Table 15 – PTPEnable attribute default values
95	Table 16 – Profile identification
96	Table 17 – Profile default settings and ranges Table 18 – Profile transports
97	Table 19 – Default PTP clock settings Table 20 – Hand_Set clock quality management
98	Figure 11 – Path Reconfiguration in a ring topology Table 21 – Path Reconfiguration Signalling message
99	Figure 12 – CPF2 time synchronization offset clock model
100	Figure 13 – CPF2 time synchronization system with offset clock model
102	Figure 14 – CPF2 time synchronization group startup sequence
109	Figure 15 – Parameter object state transition diagram Table 22 – Parameter object state event matrix
112	Table 23 – Status codes
114	Table 24 – Get_Attributes_All service parameters
116	Table 25 – Set_Attributes_All service parameters
118	Table 26 – Get_Attribute_List service parameters
120	Table 27 – Set_Attribute_List service parameters
122	Table 28 – Reset service parameters
124	Table 29 – Start service parameters
125	Table 30 – Stop service parameters
127	Table 31 – Create service parameters
129	Table 32 – Delete service parameters
130	Table 33 – Get_Attribute_Single service parameters
132	Table 34 – Set_Attribute_Single service parameters
134	Table 35 – Find_Next_Object_Instance service parameters
135	Figure 16 – Example of Find_Next_Object_Instance service
136	Table 36 – NOP service parameters
137	Table 37 – Apply_Attributes service parameters
139	Table 38 – Save service parameters
140	Table 39 – Restore service parameters
142	Table 40 – Get_Member service parameters
144	Table 41 – Set_Member service parameters
146	Table 42 – Insert_Member service parameters
148	Table 43 – Remove_Member service parameters
149	Table 44 – Group_Sync service parameters
151	Table 45 – Add_AckData_Path service parameters
152	Table 46 – Remove_AckData_Path service parameters
153	Table 47 – Get_Enum_String service parameters
155	Table 48 – Symbolic_Translation service parameters
156	Table 49 – Flash_LEDs service parameters
158	Table 50 – Multiple_Service_Packet service parameters
159	6.2.2 Connection manager ASE
168	Table 51 – CM_Open service parameters
170	Table 52 – CM_Close service parameters
172	Table 53 – CM_ Unconnected_Send service parameters
173	Table 54 – CM_Get_Connection_Data service parameters
175	Table 55 – CM_Search_Connection_Data service parameters
176	Table 56 – CM_Get_Connection_Data service parameters
177	6.2.3 Connection ASE
181	Table 57 – I/O Connection object attribute access
182	Table 58 – Bridged Connection object attribute access
183	Table 59 – Explicit messaging object attribute access
185	Figure 17 – Transmission Trigger Timer behavior
186	Figure 18 – Inactivity watchdog timer Figure 19 – Using tools for configuration
187	Figure 20 – Production Inhibit Timer behavior
189	Table 60 – Connection_Bind service parameters
190	Table 61 – Service_Name service parameters
191	6.3 ARs 6.3.1 Overview
193	Table 62 – How production trigger, transport class, and CM_RPI determinewhen data is produced
194	Figure 21 – Context of transport services within the connection model Figure 22 – Application–to–application view of data transfer
195	Figure 23 – Data flow diagram for a link producer
196	Figure 24 – Data flow diagram for a link consumer
197	Figure 25 – Triggers
198	Figure 26 – Binding transport instances to the producer and consumer of a transport connection that does not have a reverse data path Figure 27 – Binding transport instances to the producers and consumers of a transport connection that does have a reverse data path
199	Figure 28 – Binding transport instances to the producer and consumers of a multipoint connection when the transport connection does not have a reverse data path Figure 29 – Binding transport instances to the producers and consumers of a multipoint connection when the transport connection does have reverse data paths
202	6.3.2 UCMM AR formal model
204	6.3.3 Transport AR formal model Table 63 – Transport classes
214	6.3.4 AR ASE services
215	Table 64 – UCMM_Create service parameters
216	Table 65 – UCMM_Delete service parameters
217	Table 66 – UCMM_Write service parameters
218	Table 67 – UCMM_Abort service parameters
219	Table 68 – TR_Write service parameters
220	Table 69 – TR_Trigger service parameters Table 70 – TR_Packet_arrived service parameters
221	Table 71 – TR_Ack_received service parameters Table 72 – TR_Verify service parameters
222	6.4 Summary of FAL classes Table 73 – TR_Status_updated service parameters
223	6.5 Permitted FAL services by AR type Table 74 – FAL class summary
224	Table 75 – FAL services by AR type
225	Bibliography

Additional information

Status	Withdrawn
Title	Industrial communication networks. Fieldbus specifications – Application layer service definition. Type 2 elements
Replaces	BS EN 61158-5-2:2014
Publisher	BSI
Committee	GEL/65/3
Pages	226
Publication Date	2019-08-14
Withdrawn Date	2023-06-06
Replaced By	BS EN IEC 61158-5-2:2023
ISBN	978 0 539 04841 4
Standard Number	BS EN IEC 61158-5-2:2019
Identical National Standard Of	EN 61158-5-2:2019, IEC 61158-5-2:2019, EN IEC 61158-5-4:2019
Descriptors	Process control, Fieldbus, Industrial, Automatic control systems, Communication networks, Data transmission, Computer networks, Open systems interconnection, Interfaces (data processing), Bus networks, Application layer (OSI), Communication procedures
ICS Codes	35.110 - Networking

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