IEC 61784-1:2003
(Main)Digital data communications for measurement and control - Part 1: Profile sets for continuous and discrete manufacturing relative to fieldbus use in industrial control systems
Digital data communications for measurement and control - Part 1: Profile sets for continuous and discrete manufacturing relative to fieldbus use in industrial control systems
defines a set of protocol specific communication profiles based primarily on the IEC 61158 series, to be used in the design of devices involved in communications in factory manufacturing and process control. The contents of the corrigendum of July 2004 have been included in this copy.
General Information
- Status
- Published
- Publication Date
- 22-May-2003
- Technical Committee
- SC 65C - Industrial networks
- Drafting Committee
- WG 1 - TC 65/SC 65C/WG 1
- Current Stage
- DELPUB - Deleted Publication
- Start Date
- 14-Dec-2007
- Completion Date
- 26-Oct-2025
Relations
- Effective Date
- 05-Sep-2023
- Effective Date
- 05-Sep-2023
Overview - IEC 61784-1:2003 (Fieldbus Profile Sets)
IEC 61784-1:2003, “Digital data communications for measurement and control - Part 1: Profile sets for continuous and discrete manufacturing relative to fieldbus use in industrial control systems,” defines protocol-specific communication profile sets for industrial fieldbus networks. Based primarily on the IEC 61158 series, this part standardizes how devices implement field-level protocols so they can interoperate reliably in factory manufacturing and process control environments. This consolidated edition incorporates the July 2004 corrigendum.
Key topics and technical scope
- Protocol-based profile families - The standard catalogs multiple Communication Profile Families (CPF), including FOUNDATION® Fieldbus, ControlNet/EtherNet/IP, PROFIBUS/PROFINET, P‑NET, WorldFIP, INTERBUS and SwiftNet, explaining family-specific profiles and options.
- Physical layer and media selection - Guidance on MAUs, fibre and copper media, power supplies, terminators and optical power budgets to ensure compatible physical implementations.
- Data link and transport services - Definition of DLL/transport service selections and protocol choices required for device conformance, including addressing and QoS considerations.
- Intrinsic safety and IS parameters - Profile selections for intrinsically safe systems and FISCO models where relevant to hazardous-area installations.
- Conformance and selection tables - Extensive profile, service and parameter selection tables that help designers choose mandatory and optional features for conformance testing.
- Interoperability focus - Emphasis on consistent implementation of IEC 61158 protocol elements so multi-vendor devices work together in industrial control systems.
Applications and who uses IEC 61784-1
Practical applications:
- Designing and certifying field devices (I/O modules, sensors, actuators) to a specific fieldbus profile.
- Selecting network technologies and physical media for new or upgraded industrial control systems.
- Ensuring interoperability in process control and discrete manufacturing networks.
- Specifying requirements for intrinsically safe communication in hazardous areas.
Primary users:
- Control system and field device manufacturers
- System integrators and automation engineers
- Test laboratories and certification bodies
- Asset owners and plant engineers planning network upgrades
Related standards
- IEC 61158 - Protocol specifications used as the primary basis for the profiles defined in IEC 61784-1.
- Other parts of the IEC 61784 series - cover additional profile sets, conformance classes and application-specific guidance (see IEC catalogue for full list).
By aligning device design and network selection with IEC 61784-1, organizations improve compatibility, reduce integration risk and accelerate deployment of fieldbus-based industrial control systems. Keywords: IEC 61784-1, fieldbus, industrial control systems, IEC 61158, FOUNDATION Fieldbus, PROFIBUS, PROFINET, digital data communications.
IEC 61784-1:2003 - Digital data communications for measurement and control - Part 1: Profile sets for continuous and discrete manufacturing relative to fieldbus use in industrial control systems Released:5/23/2003 Isbn:2831869692
Frequently Asked Questions
IEC 61784-1:2003 is a standard published by the International Electrotechnical Commission (IEC). Its full title is "Digital data communications for measurement and control - Part 1: Profile sets for continuous and discrete manufacturing relative to fieldbus use in industrial control systems". This standard covers: defines a set of protocol specific communication profiles based primarily on the IEC 61158 series, to be used in the design of devices involved in communications in factory manufacturing and process control. The contents of the corrigendum of July 2004 have been included in this copy.
defines a set of protocol specific communication profiles based primarily on the IEC 61158 series, to be used in the design of devices involved in communications in factory manufacturing and process control. The contents of the corrigendum of July 2004 have been included in this copy.
IEC 61784-1:2003 is classified under the following ICS (International Classification for Standards) categories: 35.100.20 - Data link layer; 35.240.50 - IT applications in industry. The ICS classification helps identify the subject area and facilitates finding related standards.
IEC 61784-1:2003 has the following relationships with other standards: It is inter standard links to IEC 61784-1:2003/COR1:2004, IEC 61784-1:2007. Understanding these relationships helps ensure you are using the most current and applicable version of the standard.
IEC 61784-1:2003 is available in PDF format for immediate download after purchase. The document can be added to your cart and obtained through the secure checkout process. Digital delivery ensures instant access to the complete standard document.
Standards Content (Sample)
INTERNATIONAL IEC
STANDARD
61784-1
First edition
2003-05
Digital data communications for measurement
and control –
Part 1:
Profile sets for continuous and discrete
manufacturing relative to fieldbus use
in industrial control systems
Reference number
Publication numbering
As from 1 January 1997 all IEC publications are issued with a designation in the
60000 series. For example, IEC 34-1 is now referred to as IEC 60034-1.
Consolidated editions
The IEC is now publishing consolidated versions of its publications. For example,
edition numbers 1.0, 1.1 and 1.2 refer, respectively, to the base publication, the
base publication incorporating amendment 1 and the base publication incorporating
amendments 1 and 2.
Further information on IEC publications
The technical content of IEC publications is kept under constant review by the IEC,
thus ensuring that the content reflects current technology. Information relating to
this publication, including its validity, is available in the IEC Catalogue of
publications (see below) in addition to new editions, amendments and corrigenda.
Information on the subjects under consideration and work in progress undertaken
by the technical committee which has prepared this publication, as well as the list
of publications issued, is also available from the following:
• IEC Web Site (www.iec.ch)
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INTERNATIONAL IEC
STANDARD 61784-1
First edition
2003-05
Digital data communications for measurement
and control –
Part 1:
Profile sets for continuous and discrete
manufacturing relative to fieldbus use
in industrial control systems
© IEC 2003 – Copyright - all rights reserved
No part of this publication may be reproduced or utilized in any form or by any means, electronic or
mechanical, including photocopying and microfilm, without permission in writing from the publisher.
International Electrotechnical Commission, 3, rue de Varembé, PO Box 131, CH-1211 Geneva 20, Switzerland
Telephone: +41 22 919 02 11 Telefax: +41 22 919 03 00 E-mail: inmail@iec.ch Web: www.iec.ch
PRICE CODE
XH
For price, see current catalogue
– 2 – 61784-1 IEC:2003(E)
CONTENTS
FOREWORD .10
INTRODUCTION .12
1 Scope .13
2 Normative references.15
3 Definitions .17
3.1 Terms and definitions .17
3.2 Abbreviations and symbols .17
3.3 Conventions .18
4 Conformance to communication profiles.21
5 Communication Profile Family 1 (FOUNDATION® Fieldbus) .22
5.1 General overview.22
5.2 Profile 1/1 – FF H1 .22
5.3 Profile 1/2 – FF HSE.105
5.4 Profile 1/3 – FF H2 .107
6 Communication Profile Family 2 (ControlNet™) .110
6.1 General overview.110
6.2 Profile 2/1 ControlNet .110
6.3 Profile 2/2 EtherNet/IP.115
7 Communication Profile Family 3 (PROFIBUS).119
7.1 General overview.119
7.2 Profile 3/1.120
7.3 Profile 3/2.186
7.4 Profile 3/3 (PROFInet) .200
8 Communication Profile Family 4 (P-NET®).202
8.1 General overview.202
8.2 Profile 4/1, P-NET RS-485.202
8.3 Profile 4/2, P-NET RS-232.206
9 Communication Profile 5 (WorldFIP®).207
9.1 General overview.207
9.2 Profile 5/1 WorldFIP .208
9.3 Profile 5/2 WorldFIP .216
9.4 Profile 5/3 WorldFIP .221
10 Communication Profile Family 6 - INTERBUS®.223
10.1 General overview.223
10.2 Profile 6/1.224
10.3 Profile 6/2.230
10.4 Profile 6/3.233
11 Communication Profile Family 7 (SwiftNet) .237
11.1 General overview.237
11.2 Profile 7/1 SwiftNet transport .237
11.3 Profile 7/2 SwiftNet full stack .240
Annex A (informative) Communication concepts.244
A.1 CPF 1 (FOUNDATION Fieldbus) communication concepts.244
A.2 CPF 2 (ControlNet) communication concepts.245
A.3 CPF 3 (PROFIBUS) communication concepts .247
A.4 CPF 4 (P-NET) communication concepts .250
61784-1 IEC:2003(E) – 3 –
A.5 CPF 5 (WorldFIP) communication concepts .251
A.6 CPF 6 (INTERBUS) communication concepts .252
A.7 CPF 7 (SwiftNet) communication concepts .253
Annex B (informative) Added value of IEC 61784-1 .257
Bibliography.258
FIGURES
Figure 1 – Communication profile families and profiles. 14
Figure 2 – Example optical power budget for a 100/140 μm fibre system with a 16/16
optical passive star coupler. 37
Figure 3 – CP 3/2 Slave devices usable in applications. 120
TABLES
Table 1 – Relations of Communication Profile Families to type numbers . 14
Table 2 – Layout of profile (sub)clause selection tables . 18
Table 3 – Contents of (sub)clause selection tables. 18
Table 4 – Layout of service selection tables . 18
Table 5 – Contents of service selection tables. 19
Table 6 – Layout of parameter selection tables . 19
Table 7 – Contents of parameter selection tables. 19
Table 8 – Layout of class attribute selection tables . 20
Table 9 – Contents of class attribute selection tables . 20
Table 10 – CPF 1: overview of profile sets . 22
Table 11 – CP 1/1: PhL selection for communicating devices and their MAUs . 23
Table 12 – CP 1/1: PhL classification of MAUs and attached devices . 24
Table 13 – CP 1/1: PhL selection of Clause 16 for devices and their MAUs. 25
Table 14 – CP 1/1: PhL selection of Clause 12 for devices and their MAUs. 25
Table 15 – CP 1/1: PhL selection of Clause 21 for devices and their MAUs (denigrated) . 26
Table 16 – CP 1/1: PhL selection of recommended IS parameters for FF MAU
classes 111, 112, 121, 122, 511 and 512 . 27
Table 17 – CP 1/1: PhL selection for media components. 28
Table 18 – CP 1/1: PhL selection of imperative IS parameters for media in FISCO systems 28
Table 19 – CP 1/1: PhL selection for power supplies. 29
Table 20 – CP 1/1: PhL selection of power supply types . 29
Table 21 – CP 1/1: PhL selection of permissible output voltage and IS parameters for
FISCO power supplies. 30
Table 22 – CP 1/1: PhL selection for terminators. 31
Table 23 – CP 1/1: PhL selection of IS parameters for terminators. 31
Table 24 – CP 1/1: PhL selection of Clause 12 for intrinsic safety barriers . 33
Table 25 – CP 1/1: PhL selection of recommended IS parameters for intrinsic safety
barriers and galvanic isolators (Entity model only). 34
Table 26 – CP 1/1: PhL selection of Clause 12 for intrinsically safe galvanic isolators. 35
Table 27 – CP 1/1: PhL selection of Clause 15, recommended optical fibre types . 36
Table 28 – CP 1/1: PhL selection of passive star couplers, recommended maximum
insertion loss. 36
Table 29 – CP 1/1: PhL selection of active star couplers . 36
Table 30 – CP 1/1: Optical power budget considerations. 37
Table 31 – CP 1/1: DLL service selection . 38
Table 32 – CP 1/1: DLL service selection of Clause 7 . 38
Table 33 – CP 1/1: DLL service selection of 7.4 . 38
– 4 – 61784-1 IEC:2003(E)
Table 34 – CP 1/1: DLL service selection of 7.4.1 . 39
Table 35 – CP 1/1: DLL service selection of 7.4.3 . 39
Table 36 – CP 1/1: DLL service selection of 7.4.6 . 40
Table 37 – CP 1/1: DLL service selection of Clause 8 . 40
Table 38 – CP 1/1: DLL service selection of the summary of 8.3, DL-connection QoS . 41
Table 39 – CP 1/1: DLL service selection of figures 11–16 of 8.4 . 41
Table 40 – CP 1/1: DLL service selection of 8.5 . 41
Table 41 – CP 1/1: DLL service selection: replacement for Table 13 of 8.5 . 42
Table 42 – CP 1/1: DLL service selection of 8.5, replacement for Table 14 . 42
Table 43 – CP 1/1: DLL service selection of 8.5 for use of addresses for peer DLC. 43
Table 44 – CP 1/1: DLL service selection of 8.5 for use of addresses for multipeer DLC
connect request at publisher . 43
Table 45 – CP 1/1: DLL service selection of 8.5 for use of addresses for multipeer DLC
connect request at subscriber . 43
Table 46 – CP 1/1: DLL service selection of 8.6 . 43
Table 47 – CP 1/1: DLL service selection: replacement for Table 15 of 8.6 . 44
Table 48 – CP 1/1: DLL service selection of 8.7 . 44
Table 49 – CP 1/1: DLL service selection of 8.7, replacement for Table 16 . 44
Table 50 – CP 1/1: DLL service selection of 8.7, replacement for Table 17 . 44
Table 51 – CP 1/1: DLL service selection of 8.7, replacement for Table 18 . 45
Table 52 – CP 1/1: DLL service selection of Clause 9 . 45
Table 53 – CP 1/1: DLL service selection of 9.5, replacement for table 23 . 46
Table 54 – CP 1/1: DLL service selection of Clause 10 . 46
Table 55 – CP 1/1: DLL service selection of 10.5, replacement for table 28. 46
Table 56 – CP 1/1: DLL protocol selection. 47
Table 57 – CP 1/1: DLL protocol selection of Clause 6. 47
Table 58 – CP 1/1: DLL protocol selection of 6.3. 48
Table 59 – CP 1/1: DLL protocol selection of 6.3.2.1 for use of link designators. 48
Table 60 – CP 1/1: DLL protocol selection of 6.3.2.2 for use of node designators. 48
Table 61 – CP 1/1: DLL protocol selection of 6.3.3.1 for predefined flat non–local
DL-addresses. 48
Table 62 – CP 1/1: DLL protocol selection of 6.3.3.2 for predefined flat link–local
DL-addresses. 49
Table 63 – CP 1/1: DLL protocol selection of 6.3.3.3 for predefined node–local
DL-addresses. 49
Table 64 – CP 1/1: DLL protocol selection of 6.7. 50
Table 65 – CP 1/1: DLL protocol selection of 6.7.4. 51
Table 66 – CP 1/1: DLL protocol selection of 6.7.5. 52
Table 67 – CP 1/1: DLL protocol selection of Clause 8. 53
Table 68 – CP 1/1: DLL protocol selection, replacement for Table 10 of 8.0 . 54
Table 69 – CP 1/1: DLL protocol selection of 8.5. 55
Table 70 – CP 1/1: DLL protocol selection of 8.7. 58
Table 71 – CP 1/1: DLL protocol selection of 8.8. 62
Table 72 – CP 1/1: DLL protocol selection of 8.11. 63
Table 73 – CP 1/1: DLL protocol selection of 8.12. 63
Table 74 – CP 1/1: DLL protocol selection of 8.15. 64
Table 75 – CP 1/1: DLL protocol selection of 8.20. 65
Table 76 – CP 1/1: DLL protocol selection of Clause 9. 66
Table 77 – CP 1/1: DLL protocol selection of 9.4. 67
Table 78 – CP 1/1: DLL protocol selection of Clause 10 . 68
Table 79 – CP 1/1: DLL protocol selection of 10.2. 69
Table 80 – CP 1/1: DLL protocol selection of 10.2.2 . 79
Table 81 – CP 1/1: DLL protocol selection of 10.3. 91
61784-1 IEC:2003(E) – 5 –
Table 82 – CP 1/1: DLL protocol selection of 10.4. 92
Table 83 – CP 1/1: DLL protocol selection of Clause 11 . 93
Table 84 – CP 1/1: DLL protocol selection of 11.3. 94
Table 85 – CP 1/1: DLL protocol selection of 11.3.5 . 96
Table 86 – CP 1/1: DLL protocol selection of 11.3.5.2.2, replacement for element encoding 97
Table 87 – CP 1/1: DLL protocol selection of Clause 12 . 97
Table 88 – CP 1/1: DLL protocol selection of 12.2. 98
Table 89 – CP 1/1: DLL protocol selection of 12.3. 99
Table 90 – CP 1/1: DLL protocol selection of 12.3.7, specification of errors . 101
Table 91 – CP 1/1: DLL protocol selection of 12.4. 102
Table 92 – CP 1/1: DLL protocol selection of 12.5. 103
Table 93 – CP 1/1: DLL protocol selection of 12.6. 103
Table 94 – CP 1/1: AL service selection . 104
Table 95 – CP 1/1: AL service selection of Clause 3 . 104
Table 96 – CP 1/1: AL protocol selection. 105
Table 97 – CP 1/2: AL service selection . 106
Table 98 – CP 1/2: AL service selection of Clause 15 . 106
Table 99 – CP 1/2: AL protocol selection. 107
Table 100 – CP 1/3: PhL selection for FF H2 devices. 108
Table 101 – CP 1/3: PhL selection for FF H2 media and related components . 109
Table 102 – CP 2/1: PhL selection . 111
Table 103 – CP 2/1: DLL service selection . 112
Table 104 – CP 2/1: DLL protocol selection. 113
Table 105 – CP 2/1: DLL protocol selection of management objects. 114
Table 106 – CPF 2: AL service selection . 114
Table 107 – CP 2/1: AL protocol selection. 115
Table 108 – CP 2/2: DLL protocol selection. 116
Table 109 – CP 2/2: DLL protocol selection of management objects. 117
Table 110 – CP 2/2: AL protocol selection. 118
Table 111 – CPF 3: overview of profile sets . 119
Table 112 – CP 3/1: PhL selection . 121
Table 113 – CP 3/1: PhL selection of Clause 3. 122
Table 114 – CP 3/1: PhL selection of Clause 4. 122
Table 115 – CP 3/1: General DLL service selection. 123
Table 116 – CP 3/1: DLL service selection for DP-V0 master (class 1) . 124
Table 117– CP 3/1: DLM service selection for DP-V0 master (class 1) . 124
Table 118 – CP 3/1: DLL service selection for DP-V1 master (class 1) . 125
Table 119 – CP 3/1: DLM service selection for DP-V1 master (class 1) . 126
Table 120 – CP 3/1: DLL service selection for DP-V0 master (class 2) . 126
Table 121 – CP 3/1: DLL service selection for DP-V1 master (class 2) . 127
Table 122 – CP 3/1: DLL service selection for DP-V0 slave. 128
Table 123 – CP 3/1: DLM service selection for DP-V0 slave. 129
Table 124 – CP 3/1: DLL service selection for DP-V1 slave. 130
Table 125 – CP 3/1: DLM service selection for DP-V1 slave. 131
Table 126 – CP 3/1: General DLL protocol selection . 132
Table 127 – CP 3/1: DLL protocol selection of Clause 20 . 132
Table 128 – CP 3/1: DLL protocol selection of Clause 21 . 133
Table 129 – CP 3/1: DLL protocol selection of Clause 22 . 133
Table 130 – CP 3/1: Time variable selection for DP-V0 master (class 1) . 134
Table 131 – CP 3/1: Timer and counter selection for DP-V0 master (class 1) . 134
Table 132 – CP 3/1: DLPDU selection for DP-V0 master (class 1). 135
Table 133 – CP 3/1: MAC state selection for DP-V0 master (class 1) . 135
Table 134 – CP 3/1: Time variable selection for DP-V1 master (class 1) . 136
– 6 – 61784-1 IEC:2003(E)
Table 135 – CP 3/1: Timer and counter selection for DP-V1 master (class 1) . 136
Table 136 – CP 3/1: DLPDU selection for DP-V1 master (class 1). 137
Table 137 – CP 3/1: MAC state selection for DP-V1 master (class 1) . 137
Table 138 – CP 3/1: CS protocol selection for DP-V1 master (class 1) . 137
Table 139 – CP 3/1: Time variable selection for DP-V1 master (class 2) . 138
Table 140 – CP 3/1: Timer and counter selection for DP-V1 master (class 2) . 138
Table 141 – CP 3/1: DLPDU selection for DP-V1 master (class 2). 139
Table 142 – CP 3/1: Time variable selection for DP-V0 slave . 139
Table 143 – CP 3/1: Timer and counter selection for DP-V0 slave. 140
Table 144 – CP 3/1: DLPDU selection for DP-V0 slave . 140
Table 145 – CP 3/1: MAC state selection for DP-V0 slave. 141
Table 146 – CP 3/1: Time variable selection for DP-V1 slave . 141
Table 147 – CP 3/1: Timer and counter selection for DP-V1 slave. 142
Table 148 – CP 3/1: DLPDU selection for DP-V1 slave . 142
Table 149 – CP 3/1: CS protocol selection for DP-V1 slave. 142
Table 150 – CP 3/1, 3/2: AL service selection . 143
Table 151 – CP 3/1, 3/2: AL service selection of data types . 143
Table 152 – CP 3/1, 3/2: AL service selection of Clause 8. 145
Table 153 – CP 3/1, 3/2: AL service selection of I/O data ASE . 145
Table 154 – CP 3/1, 3/2: AL service selection of Diagnosis ASE . 145
Table 155 – CP 3/1, 3/2: AL service selection of Context ASE . 146
Table 156 – CP 3/1, 3/2: AL service selection of Management ASE . 147
Table 157 – CP 3/1, 3/2: AL service selection of AR ASE. 147
Table 158 – CP 3/1, 3/2: AL service selection of Clause 8. 148
Table 159 – CP 3/1, 3/2: AL service selection of Process data ASE . 148
Table 160 – CP 3/1, 3/2: AL service selection of I/O data ASE . 149
Table 161 – CP 3/1, 3/2: AL service selection of Alarm ASE . 149
Table 162 – CP 3/1, 3/2: AL service selection of Context ASE . 149
Table 163 – CP 3/1, 3/2: AL service selection of Load region ASE . 149
Table 164 – CP 3/1, 3/2: AL service selection of Function invocation ASE . 150
Table 165 – CP 3/1, 3/2: AL service selection of Time ASE. 150
Table 166 – CP 3/1, 3/2: AL service selection of AR ASE. 151
Table 167 – CP 3/1, 3/2: AL service selection of Clause 8. 152
Table 168 – CP 3/1, 3/2: AL service selection of I/O data ASE . 152
Table 169 – CP 3/1, 3/2: AL service selection of Diagnosis ASE . 152
Table 170 – CP 3/1, 3/2: AL service selection of Context ASE . 153
Table 171 – CP 3/1, 3/2: AL service selection of Management ASE . 154
Table 172 – CP 3/1, 3/2: AL service selection of AR ASE. 154
Table 173 – CP 3/1, 3/2: AL service selection of Clause 8. 155
Table 174 – CP 3/1, 3/2: AL service selection of Process data ASE . 155
Table 175 – CP 3/1, 3/2: AL service selection of Context ASE . 156
Table 176 – CP 3/1, 3/2: AL service selection of Load region ASE . 157
Table 177 – CP 3/1, 3/2: AL service selection of Function invocation ASE . 157
Table 178 – CP 3/1, 3/2: AL service selection of Time ASE. 157
Table 179 – CP 3/1, 3/2: AL service selection of AR ASE. 158
Table 180 – CP 3/1, 3/2: AL service selection of Clause 8. 159
Table 181 – CP 3/1, 3/2: AL service selection of I/O data ASE . 159
Table 182 – CP 3/1, 3/2: AL service selection of Diagnosis ASE . 160
Table 183 – CP 3/1, 3/2: AL service selection of Context ASE . 161
Table 184 – CP 3/1, 3/2: AL service selection of AR ASE. 162
Table 185 – CP 3/1, 3/2: AL service selection of Clause 8. 163
Table 186 – CP 3/1, 3/2: AL service selection of Process data ASE . 163
Table 187 – CP 3/1, 3/2: AL service selection of I/O data ASE . 163
61784-1 IEC:2003(E) – 7 –
Table 189 – CP 3/1, 3/2: AL service selection of Alarm ASE . 164
Table 190 – CP 3/1, 3/2: AL service selection of Context ASE . 165
Table 191 – CP 3/1, 3/2: AL service selection of Load region ASE . 166
Table 192 – CP 3/1, 3/2: AL service selection of Function invocation ASE . 166
Table 193 – CP 3/1, 3/2: AL service selection of Time ASE. 166
Table 194 – CP 3/1, 3/2: AL service selection of AR ASE. 167
Table 195 – CP 3/1, 3/2: AL protocol selection. 168
Table 196 – CP 3/1, 3/2: AL protocol selection of Clause 6 . 168
Table 197 – CP 3/1, 3/2: AL protocol selection of APDUs. 169
Table 198 – CP 3/1, 3/2: AL protocol selection of FSPM services primitives. 170
Table 199 – CP 3/1, 3/2: AL protocol selection of DMPM services primitives . 170
Table 200 – CP 3/1, 3/2: AL protocol selection of Clause 6 . 171
Table 201 – CP 3/1, 3/2: AL protocol selection of APDUs. 172
Table 202 – CP 3/1, 3/2: AL protocol selection of FSPM services primitives. 173
Table 203 – CP 3/1, 3/2: AL protocol selection of DMPM services primitives . 174
Table 204 – CP 3/1, 3/2: AL protocol selection of Clause 6 . 174
Table 205 – CP 3/1, 3/2: AL protocol selection of APDUs. 175
Table 206 – CP 3/1, 3/2: AL protocol selection of FSPM services primitives. 175
Table 207 – CP 3/1, 3/2: AL protocol selection of DMPM services primitives . 176
Table 208 – CP 3/1, 3/2: AL protocol selection of Clause 6 . 176
Table 209 – CP 3/1, 3/2: AL protocol selection of APDUs. 176
Table 210 – CP 3/1, 3/2: AL protocol selection of FSPM services primitives. 178
Table 211 – CP 3/1, 3/2: AL protocol selection of DMPM services primitives . 178
Table 212 – CP 3/1, 3/2: AL protocol selection of Clause 6 . 179
Table 213 – CP 3/1, 3/2: AL protocol selection of APDU selection. 179
Table 214 – CP 3/1, 3/2: AL protocol selection of FSPM services primitives. 180
Table 215 – CP 3/1, 3/2: AL protocol selection of DMPM services primitives . 180
Table 216 – CP 3/1, 3/2: AL protocol selection of Clause 6 . 181
Table 217 – CP 3/1, 3/2: AL protocol selection of APDUs. 182
Table 218 – CP 3/1, 3/2: AL protocol selection of FSPM services primitives. 183
Table 219 – CP 3/1, 3/2: AL protocol selection of DMPM services primitives . 184
Table 220 – CP 3/2: PhL selection . 186
Table 221 – CP 3/2: PhL selection of Clause 12 for devices and their MAUs. 188
Table 222 – CP 3/2: PhL selection of Clause 21 for devices and their MAUs. 189
Table 223 – CP 3/2: General DLL protocol selection . 190
Table 224 – CP 3/2: DLL protocol selection of Clause 5 . 190
Table 225 – CP 3/2: DLL protocol selection of Clause 20 . 191
Table 226 – CP 3/2: DLL protocol selection of Clause 21 . 191
Table 227 – CP 3/2: DLL protocol selection of Clause 22 . 192
Table 228 – CP 3/2: Time variable selection for DP-V0 master (class 1) . 192
Table 229 – CP 3/2: Timer and counter selection for DP-V0 master (class 1) . 193
Table 230 – CP 3/2: DLPDU selection for DP-V0 master (class 1). 193
Table 231 – CP 3/2: Time variable selection for DP-V1 master (class 1) . 194
Table 232 – CP 3/2: Timer and counter selection for DP-V1 master (class 1) . 194
Table 233 – CP 3/2: DLPDU selection for DP-V1 master (class 1). 195
Table 234 – CP 3/2: Time variable selection for DP-V1 master (class 2) . 196
Table 235 – CP 3/2: Timer and counter selection for DP-V1 master (class 2) . 196
Table 236 – CP 3/2: DLPDU selection for DP-V1 master (class 2). 197
Table 237 – CP 3/2: Time variable selection for DP-V0 slave . 197
Table 238 – CP 3/2: Timer and counter selection for DP-V0 slave. 198
Table 239 – CP 3/2: DLPDU selection for DP-V0 slave . 198
Table 240 – CP 3/2: Time variable selection for DP-V1 slave . 199
Table 241 – CP 3/2: Timer and counter selection for DP-V1 slave. 199
– 8 – 61784-1 IEC:2003(E)
Table 242 – CP 3/2: DLPDU selection for DP-V1 slave . 200
Table 243 – CP 3/3: AL service selection . 201
Table 244 – CP 3/3: AL protocol selection. 201
Table 245 – CP 4/1: PhL selection . 203
Table 246 – CP 4/1: DLL service selection . 204
Table 247 – CP 4/1: DLL protocol selection. 204
Table 248 – CP 4/1: AL service selection . 205
Table 249 – CP 4/1: AL protocol selection. 205
Table 250 – CP 4/2: PhL selection . 206
Table 251 – CPF 5: overview of profile sets . 207
Table 252 – CPF 5: PhL selection . 208
Table 253 – CPF 5: DLL service selection. 209
Table 254 – CPF 5: DLL service selection of Clause 18 . 209
Table 255 – CPF 5: DLL protocol selection . 210
Table 256 – CPF 5: DLL protocol selection of variables and resources. 210
Table 257 – CPF 5: DLL protocol selection of DLPDUs . 211
Table 258 – CP 5/1: AL service selection . 211
Table 259 – CP 5/1: AL service selection of ASEs. 211
Table 260 – CPF 5: AL service selection of MPS ASEs . 212
Table 261 – CPF 5: AL service selection of variable elements. 212
Table 262 – CPF 5: AL service selection of produced variable elements . 212
Table 263 – CPF 5: AL service selection of consumed variable elements. 212
Table 264 – CP 5/1: AL service selection of MPS services . 213
Table 265 – CP 5/1, 5/2: AL service selection of A_Readloc service parameters. 213
Table 266 – CP 5/1, 5/2: AL service selection of A_Readfar service parameters . 213
Table 267 – CP 5/1, 5/2: AL service selection of A_Read service parameters . 213
Table 268 – CP 5/1: AL service selection of MCS service classes . 213
Table 269 – CP 5/1: AL service selection of QoS . 214
Table 270 – CP 5/1: AL service selection of MCS services. 214
Table 271 – CP 5/1, 5/2: AL service selection of A_Data parameters . 214
Table 272 – CP 5/1: AL protocol selection. 214
Table 273 – CPF 5: AL protocol selection of MPS data types . 215
Table 274 – CPF 5: AL protocol selection of MPS PDUs . 215
Table 275 – CPF 5: AL protocol selection of MPS encoding rules. 215
Table 276 – CP 5/1, 5/2: AL protocol selection of MCS PDUs . 215
Table 277 – CP 5/1: AL protocol selection of MCS state machines. 216
Table 278 – CP 5/2: AL service selection . 216
Table 279 – CP 5/2: AL service selection of ASEs. 216
Table 280 – CP 5/2: AL service selection of MPS services . 217
Table 281 – CP 5/2: AL service selection of MCS service classes . 217
Table 282 – CP 5/2: AL service selection of QoS . 217
Table 283 – CP 5/2: AL service selection of MCS services. 217
Table 284 – CP 5/2: AL service selection of domain services . 218
Table 285 – CP 5/2: AL service selection of domain object attributes . 218
Table 286 – CP 5/2: AL service selection of program services. 218
Table 287 – CP 5/2: AL service selection of program object attributes . 218
Table 288 – CP 5/2: AL service selection of variable services . 219
Table 289 – CP 5/2: AL service selection of variable classes . 219
Table 290 – CP 5/2: AL service selection of variable class attributes . 219
Table 291 – CP 5/2: AL protocol selection. 219
Table 292 – CP 5/2: AL protocol selection of MCS state machines. 220
Table 293 – CP 5/2: AL protocol selection of sub-MMS coding rules . 220
Table 294 – CP 5/2: AL protocol selection of sub-MMS PDUs . 221
61784-1 IEC:2003(E) – 9 –
Table 295 – CP 5/3: AL service selection . 221
Table 296 – CP 5/3: AL service selection of ASEs. 221
Table 297 – CP 5/3: AL protocol selection. 222
Table 298 – CPF 6: device CP identifier assignment . 223
Table 299 – CPF 6: PhL selection . 224
Table 300 – CPF 6: DLL service selection. 225
Table 301 – CP 6/1: DLL service selection, assignment of DLL services to device types . 226
Table 302 – CPF 6: DLL protocol selection . 227
Table 303 – CPF 6: DLL protocol selection of data widths supported by master . 228
Table 304 – CP 6/1 and CP 6/2: AL service selection. 229
Table 305 – CP 6/1: AL service selection, assignment of AL services to device types . 230
Table 306 – CPF 6: AL protocol selection. 230
Table 307 – CP 6/2: DLL service selection, assignment of DLL services to device types . 231
Table 308 – CP 6/2: AL service selecti
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