BS EN IEC 61158-4-2:2019
$215.11
Industrial communication networks. Fieldbus specifications – Data-link layer protocol specification. Type 2 elements
| Published By | Publication Date | Number of Pages |
| BSI | 2019 | 388 |
IEC 61158-4-2:2019 specifies procedures for the timely transfer of data and control information from one data-link user entity to a peer user entity, and among the data-link entities forming the distributed data-link service provider and the structure of the fieldbus DLPDUs used for the transfer of data and control information by the protocol of this standard, and their representation as physical interface data units. This fourth edition cancels and replaces the third edition published in 2014 and constitutes a technical revision. lt;br /gt;This edition includes the following significant technical changes with respect to the previous edition: lt;br /gt;ā¢clarifications of ControlNet object in 7.2; lt;br /gt;ā¢extensions and clarifications of TCP/IP interface object in 7.5; lt;br /gt;ā¢extensions and clarifications of Ethernet Link object in 7.6; lt;br /gt;ā¢clarifications of DeviceNet object in 7.7; lt;br /gt;ā¢extensions and clarifications of CCO object in 7.8; lt;br /gt;ā¢extensions and clarifications of DLR object in 7.9; lt;br /gt;ā¢extensions and clarifications of Port object in 7.11; lt;br /gt;ā¢addition of PRP/HSR Protocol and PRP/HSR Nodes Table objects in 7.12 and 7.13; lt;br /gt;ā¢extensions and clarifications of DLR protocol in Clause 10; lt;br /gt;ā¢addition of PRP/HSR protocol mapping in Clause 11; lt;br /gt;ā¢update of indicator behaviour in A.2.2 and A.2.4; lt;br /gt;ā¢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 |
| 20 | FOREWORD |
| 22 | INTRODUCTION |
| 24 | 1 Scope 1.1 General 1.2 Specifications 1.3 Procedures |
| 25 | 1.4 Applicability 1.5 Conformance 2 Normative references |
| 27 | 3 Terms, definitions, symbols, abbreviated terms and conventions 3.1 Reference model terms and definitions |
| 29 | 3.2 Service convention terms and definitions 3.3 Common terms and definitions |
| 30 | 3.4 Additional Type 2 definitions |
| 38 | 3.5 Type 2 symbols and abbreviated terms |
| 39 | 3.6 Conventions for station management objects Tables TableĀ 1 ā Format of attribute tables |
| 40 | 4 Overview of the data-link protocol 4.1 General 4.1.1 DLL architecture TableĀ 2 ā Data-link layer components |
| 41 | 4.1.2 Access control machine (ACM) and scheduling support functions Figures FigureĀ 1 ā Data-link layer internal architecture |
| 42 | 4.1.3 Connection-mode, connectionless-mode data transfer and DL service 4.2 Services provided by the DL 4.2.1 Overview 4.2.2 QoS |
| 43 | 4.3 Structure and definition of DLaddresses 4.3.1 General 4.3.2 MAC ID address FigureĀ 2Ā āĀ Relationships of DLSAPs, DLSAPaddresses, and group DLaddresses |
| 44 | 4.3.3 Generic tag address 4.3.4 Fixed tag address FigureĀ 3 ā Basic structure of a MAC ID address FigureĀ 4 ā Basic structure of a generic tag address FigureĀ 5 ā Basic structure of a fixed tag address TableĀ 3 ā MAC ID addresses allocation |
| 45 | 4.4 Services assumed from the PhL 4.4.1 General requirements TableĀ 4 ā Fixed tag service definitions |
| 46 | 4.4.2 Data encoding rules 4.4.3 DLL to PhL interface FigureĀ 6 ā M_symbols and Manchester encoding at 5 MHz TableĀ 5 ā Data encoding rules |
| 47 | TableĀ 6 ā M Data symbols TableĀ 7 ā Truth table for ph_status_indication |
| 48 | 4.5 Functional classes 5 General structure and encoding of PhIDUs and DLPDUs and related elements of procedure 5.1 Overview 5.2 Media access procedure |
| 49 | FigureĀ 7 ā NUT structure |
| 50 | FigureĀ 8 ā Media access during scheduled time |
| 51 | FigureĀ 9 ā Media access during unscheduled time |
| 52 | 5.3 DLPDU structure and encoding 5.3.1 General 5.3.2 DLPDU components 5.3.3 Preamble 5.3.4 Start and end delimiters 5.3.5 DLPDU octets and ordering FigureĀ 10 ā DLPDU format |
| 53 | 5.3.6 Source MAC ID 5.3.7 Lpackets field 5.3.8 Frame check sequence (FCS) |
| 54 | TableĀ 8 ā FCS length, polynomials and constants |
| 56 | 5.3.9 Null DLPDU 5.3.10 Abort DLPDU 5.4 Lpacket components 5.4.1 General Lpacket structure 5.4.2 Size FigureĀ 11 ā Aborting a DLPDU during transmission FigureĀ 12 ā Lpacket format |
| 57 | 5.4.3 Control 5.4.4 Generic tag Lpackets FigureĀ 13 ā Generic tag Lpacket format |
| 58 | 5.4.5 Fixed tag Lpackets 5.5 DLPDU procedures 5.5.1 General FigureĀ 14 ā Fixed tag Lpacket format |
| 59 | 5.5.2 Sending scheduled DLPDUs 5.5.3 Sending unscheduled DLPDUs 5.5.4 Receiving DLPDUs 5.6 Summary of DLL support services and objects |
| 60 | TableĀ 9 ā DLL support services and objects |
| 61 | 6 Specific DLPDU structure, encoding and procedures 6.1 Modeling language 6.1.1 State machine description |
| 62 | 6.1.2 Use of DLL- prefix 6.1.3 Data types |
| 63 | 6.2 DLS user services 6.2.1 General 6.2.2 Connected mode and connectionless mode transfer service TableĀ 10 ā Elementary data types |
| 65 | 6.2.3 Queue maintenance service 6.2.4 Tag filter service |
| 66 | 6.2.5 Link synchronization service 6.2.6 Synchronized parameter change service |
| 67 | 6.2.7 Event reports service |
| 68 | 6.2.8 Bad FCS service 6.2.9 Current moderator service TableĀ 11 ā DLL events |
| 69 | 6.2.10 Power up and online services 6.2.11 Enable moderator service 6.2.12 Listen only service 6.3 Generic tag Lpacket 6.3.1 General |
| 70 | 6.3.2 Structure of the generic-tag Lpacket 6.3.3 Sending and receiving the generic-tag Lpacket 6.4 Moderator Lpacket 6.4.1 General 6.4.2 Structure of the moderator Lpacket |
| 71 | 6.4.3 Sending and receiving the moderator Lpacket |
| 72 | 6.5 Time distribution Lpacket 6.5.1 General 6.5.2 Structure of the time distribution Lpacket |
| 73 | FigureĀ 15 ā Goodness parameter of TimeDist_Lpacket TableĀ 12 ā Time distribution priority |
| 74 | 6.5.3 Sending and receiving the time distribution Lpacket 6.6 UCMM Lpacket 6.6.1 General 6.6.2 Structure of the UCMM Lpacket 6.6.3 Sending and receiving the UCMM Lpacket 6.7 Keeper UCMM Lpacket 6.7.1 General |
| 75 | 6.7.2 Structure of the Keeper UCMM Lpacket 6.7.3 Sending and receiving the Keeper UCMM Lpacket 6.8 TUI Lpacket 6.8.1 General 6.8.2 Structure of the TUI Lpacket |
| 76 | 6.8.3 Sending and receiving the TUI Lpacket 6.9 Link parameters Lpacket and tMinus Lpacket 6.9.1 General TableĀ 13 ā Format of the TUI Lpacket |
| 77 | 6.9.2 Structure of link parameters and tMinus Lpackets 6.9.3 Sending and receiving the tMinus and Link parameters Lpackets |
| 78 | 6.10 Iām-alive Lpacket 6.10.1 General 6.10.2 Structure or the Iām-alive Lpacket 6.10.3 Sending and receiving Iām Alive 6.10.4 Iām alive state processing |
| 79 | 6.11 Ping Lpackets 6.11.1 General FigureĀ 16 ā Example Iām alive processing algorithm |
| 80 | 6.11.2 Structure of the ping Lpackets 6.11.3 Sending and receiving the ping Lpackets |
| 81 | 6.12 WAMI Lpacket 6.12.1 General 6.12.2 Structure of the WAMI Lpacket 6.12.3 Sending and receiving the WAMI Lpacket 6.13 Debug Lpacket |
| 82 | 6.14 IP Lpacket 6.15 Ethernet Lpacket 7 Objects for station management 7.1 General |
| 84 | 7.2 ControlNetā¢ object 7.2.1 Overview 7.2.2 Class attributes 7.2.3 Instance attributes TableĀ 14 ā ControlNet object class attributes |
| 85 | TableĀ 15 ā ControlNet object instance attributes |
| 89 | TableĀ 16 ā TUI status flag bits |
| 90 | TableĀ 17 ā Mac_ver bits TableĀ 18 ā Channel state bits |
| 92 | 7.2.4 Common services TableĀ 19 ā ControlNet object common services |
| 93 | 7.2.5 Class specific services TableĀ 20 ā ControlNet object class specific services |
| 94 | 7.2.6 Behavior 7.2.7 Module status indicator |
| 95 | 7.3 Keeper object 7.3.1 Overview 7.3.2 Revision history 7.3.3 Class attributes 7.3.4 Instance attributes TableĀ 21 ā Keeper object revision history TableĀ 22 ā Keeper object class attributes |
| 96 | TableĀ 23 ā Keeper object instance attributes |
| 99 | TableĀ 24 ā Keeper operating state definitions TableĀ 25 ā Port status flag bit definitions |
| 100 | TableĀ 26 ā TUI status flag bits |
| 101 | FigureĀ 17 ā Keeper CRC algorithm |
| 102 | TableĀ 27 ā Keeper attributes |
| 103 | 7.3.5 Common services TableĀ 28 ā Memory requirements (in octets) for the Keeper attributes TableĀ 29 ā Keeper object common services |
| 104 | 7.3.6 Class specific services |
| 105 | TableĀ 30 ā Keeper object class specific services |
| 106 | TableĀ 31 ā Service error codes |
| 110 | 7.3.7 Service error codes TableĀ 32 ā Wire order format of the TUI Lpacket |
| 111 | 7.3.8 Behavior TableĀ 33 ā Service error codes |
| 112 | 7.3.9 Miscellaneous notes TableĀ 34 ā Keeper object operating states |
| 113 | 7.3.10 Keeper power up sequence |
| 114 | FigureĀ 18 ā Keeper object power-up state diagram |
| 115 | FigureĀ 19 ā Keeper object operating state diagram |
| 116 | TableĀ 35 ā Keeper object state event matrix |
| 118 | 7.4 Scheduling object 7.4.1 Overview FigureĀ 20 ā Synchronized network change processing |
| 119 | 7.4.2 Class attributes 7.4.3 Instance attributes TableĀ 36 ā Scheduling object class attributes |
| 120 | 7.4.4 Common services TableĀ 37 ā Scheduling object instance attributes TableĀ 38 ā Scheduling object common services |
| 121 | TableĀ 39 ā Status error descriptions for Create |
| 122 | 7.4.5 Class specific services TableĀ 40 ā Status error descriptions for Delete and Kick_Timer TableĀ 41 ā Scheduling object class specific services |
| 124 | TableĀ 42 ā Status error descriptions for Read |
| 125 | TableĀ 43 ā Status error descriptions for Conditional_Write TableĀ 44 ā Status error descriptions for Forced_Write |
| 126 | TableĀ 45 ā Status error descriptions for Change_Start |
| 127 | TableĀ 46 ā Status error descriptions for Break_Connections TableĀ 47 ā Status error descriptions for Change_Complete |
| 128 | 7.4.6 Typical scheduling session TableĀ 48 ā Status error descriptions for Restart_Connections |
| 129 | 7.5 TCP/IP Interface object 7.5.1 Overview 7.5.2 Revision history TableĀ 49 ā Revision history |
| 130 | 7.5.3 Class attributes 7.5.4 Instance attributes TableĀ 50 ā TCP/IP Interface object class attributes |
| 131 | TableĀ 51 ā TCP/IP Interface object instance attributes |
| 134 | TableĀ 52 ā Status bits |
| 135 | TableĀ 53 ā Configuration capability bits |
| 136 | TableĀ 54 ā Configuration control bits |
| 137 | TableĀ 55 ā Example path |
| 138 | TableĀ 56 ā Interface configuration components |
| 140 | TableĀ 57 ā Alloc control values |
| 141 | TableĀ 58 ā AcdActivity values TableĀ 59 ā ArpPdu ā ARP Response PDU in binary format |
| 142 | Table 60 ā Admin Capability member bit definitions |
| 143 | Table 61 ā Admin Capability member bit definitions |
| 144 | 7.5.5 Common services TableĀ 62 ā TCP/IP Interface object common services |
| 145 | TableĀ 63 ā Get_Attributes_All reply format |
| 146 | 7.5.6 Class specific services Table 64 ā TCP/IP Interface object class specific services Table 65 ā Set_Port_Admin_State service request parameters |
| 147 | 7.5.7 Behavior Table 66 ā Set_Protocol_Admin_State service request parameters Table 67 ā Class specific error codes |
| 148 | FigureĀ 21 ā State transition diagram for TCP/IP Interface object |
| 149 | 7.5.8 Address Conflict Detection (ACD) FigureĀ 22 ā State transition diagram for TCP/IP Interface object |
| 151 | FigureĀ 23 ā ACD Behavior |
| 155 | 7.6 Ethernet link object 7.6.1 Overview 7.6.2 Revision history 7.6.3 Class attributes TableĀ 68 ā Ethernet link object revision history |
| 156 | 7.6.4 Instance attributes TableĀ 69 ā Ethernet link object class attributes TableĀ 70 ā Ethernet link object instance attributes |
| 162 | TableĀ 71 ā Interface flags bits |
| 163 | TableĀ 72 ā Control bits |
| 164 | TableĀ 73 ā Interface type TableĀ 74 ā Interface state TableĀ 75 ā Admin state |
| 165 | Table 76 ā Capability Bits |
| 166 | 7.6.5 Common services TableĀ 77 ā Ethernet Link object common services |
| 167 | TableĀ 78 ā Get_Attributes_All reply format |
| 168 | 7.6.6 Class specific services 7.6.7 Behavior TableĀ 79 ā Ethernet Link object class specific services |
| 169 | 7.7 DeviceNetā¢ object 7.7.1 Overview 7.7.2 Revision history FigureĀ 24 ā State transition diagram for Ethernet Link object |
| 170 | 7.7.3 Class attributes 7.7.4 Instance attributes TableĀ 80 ā DeviceNet object revision history TableĀ 81 ā DeviceNet object class attributes |
| 171 | TableĀ 82 ā DeviceNet object instance attributes |
| 173 | TableĀ 83 ā Bit rate attribute values |
| 174 | TableĀ 84 ā BOI attribute values |
| 176 | TableĀ 85 ā Diagnostic counters bit description |
| 177 | 7.7.5 Common services TableĀ 86 ā DeviceNet object common services TableĀ 87 ā Reset service parameter TableĀ 88 ā Reset service parameter values |
| 178 | 7.7.6 Class specific services 7.8 Connection configuration object (CCO) 7.8.1 Overview TableĀ 89 ā DeviceNet object class specific services |
| 179 | 7.8.2 Revision history 7.8.3 Class attributes TableĀ 90 ā Connection configuration object revision history TableĀ 91 ā Connection configuration object class attributes |
| 181 | 7.8.4 Instance attributes TableĀ 92 ā Format number values TableĀ 93 ā Connection configuration object instance attributes |
| 185 | TableĀ 94 ā Originator connection status values |
| 186 | TableĀ 95 ā Target connection status values TableĀ 96 ā Connection flags |
| 188 | TableĀ 97 ā I/O mapping formats |
| 190 | 7.8.5 Connection Configuration Object change control 7.8.6 Common services TableĀ 98 ā Services valid during a change operation |
| 191 | TableĀ 99 ā Connection configuration object common services TableĀ 100 ā Get_Attributes_All Response ā class level |
| 192 | TableĀ 101 ā Get_Attributes_All response ā instance level |
| 193 | TableĀ 102 ā Set_Attributes_All error codes |
| 194 | TableĀ 103 ā Set_Attributes_All request |
| 195 | TableĀ 104 ā Create request parameters |
| 196 | TableĀ 105 ā Create error codes TableĀ 106 ā Delete error codes |
| 197 | 7.8.7 Class specific services TableĀ 107 ā Restore error codes TableĀ 108 ā Connection configuration object class specific services |
| 198 | TableĀ 109 ā Change_Start error codes TableĀ 110 ā Get_Status service parameter |
| 199 | TableĀ 111 ā Get_Status service response TableĀ 112 ā Get_Status service error codes TableĀ 113 ā Change_Complete service parameter |
| 200 | 7.8.8 Behavior TableĀ 114 ā Change_Complete service error codes TableĀ 115 ā Audit_Changes service parameter TableĀ 116 ā Audit_Changes service error codes |
| 201 | 7.9 DLR object 7.9.1 Overview 7.9.2 Revision history FigureĀ 25 ā Connection configuration object edit flowchart |
| 202 | 7.9.3 Class attributes 7.9.4 Instance attributes TableĀ 117 ā Revision history TableĀ 118 ā DLR object class attributes |
| 203 | TableĀ 119 ā DLR object instance attributes |
| 206 | TableĀ 120 ā Network Status values TableĀ 121 ā Ring Supervisor Status values |
| 210 | TableĀ 122 ā Capability flags |
| 212 | TableĀ 123 ā Redundant Gateway Status values |
| 213 | 7.9.5 Common services TableĀ 124 ā DLR object common services |
| 214 | TableĀ 125 ā Get_Attributes_All Response ā Object Revision 1, non supervisor device |
| 215 | TableĀ 126 ā Get_Attributes_All Response ā Object Revision 1, supervisor-capable device TableĀ 127 ā Get_Attributes_All Response ā Object Revision 2, non supervisor device |
| 216 | TableĀ 128 ā Get_Attributes_All Response ā All other cases |
| 217 | 7.9.6 Class specific services TableĀ 129 ā DLR object class specific services |
| 218 | 7.10 QoS object 7.10.1 Overview 7.10.2 Revision History 7.10.3 Class attributes TableĀ 130 ā QoS object revision history |
| 219 | 7.10.4 Instance Attributes TableĀ 131 ā QoS object class attributes TableĀ 132 ā QoS object instance attributes |
| 220 | 7.10.5 Common services TableĀ 133 ā Default DCSP values and usages |
| 221 | 7.10.6 Get_Attributes_All response (class level) 7.11 Port object 7.11.1 Overview 7.11.2 Revision History TableĀ 134 ā QoS object common services |
| 222 | 7.11.3 Class attributes 7.11.4 Instance attributes TableĀ 135 ā Port object revision history TableĀ 136 ā Port object class attributes |
| 223 | TableĀ 137 ā Port object instance attributes |
| 225 | TableĀ 138 ā Port Type and associated Link Object classes and Port Type Name values |
| 227 | TableĀ 139 ā Port Routing Capabilities attribute bit definitions |
| 228 | 7.11.5 Common services TableĀ 140 ā Port object common services |
| 229 | 7.12 PRP/HSR Protocol object 7.12.1 Overview 7.12.2 Revision history TableĀ 141 ā Get_Attributes_All responseā class level TableĀ 142 ā Get_Attributes_All responseā instance level |
| 230 | 7.12.3 Class attributes 7.12.4 Instance attributes TableĀ 143 ā Revision history TableĀ 144 ā Class attributes |
| 231 | TableĀ 145 ā Instance attributes |
| 234 | TableĀ 146 ā Node Type |
| 235 | TableĀ 147 ā Switching Node TableĀ 148 ā HSR Mode |
| 236 | TableĀ 149 ā RedBox ID |
| 237 | 7.12.5 Common Services TableĀ 150 ā PRP/HSR Protocol object common services |
| 238 | TableĀ 151 ā Get_Attributes_All response |
| 239 | 7.13 PRP/HSR Nodes Table object 7.13.1 Overview 7.13.2 Revision history 7.13.3 Class attributes 7.13.4 Instance attributes TableĀ 152 ā Revision history TableĀ 153 ā Class attributes |
| 240 | TableĀ 154 ā Instance attributes |
| 241 | TableĀ 155 ā Remote Node Type |
| 242 | 7.13.5 Common services 8 Other DLE elements of procedure 8.1 Network attachment monitor (NAM) 8.1.1 General TableĀ 156 ā PRP/HSR Nodes Tables object common services TableĀ 157 ā Get_Attributes_All response |
| 243 | 8.1.2 Default parameters FigureĀ 26 ā NAM state machine TableĀ 158 ā NAM states |
| 244 | 8.1.3 Auto-addressing 8.1.4 Valid MAC IDs 8.1.5 State machine description TableĀ 159 ā Default link parameters |
| 250 | 8.2 Calculating link parameters 8.2.1 Link parameters |
| 251 | 8.2.2 Conditions affecting link parameters 8.2.3 Moderator change 8.2.4 NUT timing TableĀ 160 ā PhL timing characteristics |
| 253 | 8.2.5 Slot timing 8.2.6 Blanking |
| 254 | 8.2.7 Example implementation |
| 258 | 9 Detailed specification of DL components 9.1 General 9.2 Access control machine (ACM) |
| 278 | 9.3 TxLLC |
| 282 | 9.4 RxLLC |
| 286 | 9.5 Transmit machine (TxM) |
| 290 | 9.6 Receive machine (RxM) |
| 296 | 9.7 Serializer |
| 298 | 9.8 Deserializer 9.8.1 Octet construction 9.8.2 FCS checking |
| 299 | 9.8.3 End of DLPDU processing 9.9 DLL management |
| 301 | 10 Device Level Ring (DLR) protocol 10.1 General 10.2 Support for Multiple DLR Ring Pairs |
| 302 | 10.3 Supported topologies FigureĀ 27 ā Devices with Multiple DLR Ring Pairs |
| 303 | 10.4 Overview of DLR operation 10.4.1 Normal operation FigureĀ 28 ā DLR rings connected to switches |
| 304 | FigureĀ 29 ā Normal operation of a DLR network FigureĀ 30 ā Beacon and Announce frames |
| 305 | 10.4.2 Link failures FigureĀ 31 ā Link failure |
| 306 | 10.5 Classes of DLR implementation FigureĀ 32 ā Network reconfiguration after link failure |
| 307 | 10.6 DLR behavior 10.6.1 DLR variables 10.6.2 Ring supervisor TableĀ 161 ā DLR variables |
| 310 | 10.6.3 Ring node |
| 311 | 10.6.4 Sign on process |
| 312 | 10.6.5 Neighbor check process 10.7 Implementation requirements 10.7.1 Embedded switch requirements and recommendations FigureĀ 33 ā Neighbor Check process |
| 313 | 10.7.2 DLR implementation requirements TableĀ 162 ā DLR Link speed and duplex requirements |
| 314 | 10.7.3 IECĀ 61588 and CPĀ 2/2.1 considerations 10.7.4 IEEEĀ 802.1D/IEEEĀ 802.1Q STP/RSTP/MSTP considerations 10.8 Using non-DLR nodes in the ring network 10.8.1 General considerations |
| 315 | 10.8.2 Non-DLR end devices 10.8.3 Non-DLR switches |
| 316 | FigureĀ 34 ā Unsupported topology ā example 1 FigureĀ 35 ā Unsupported topology ā example 2 |
| 318 | 10.9 Redundant gateway devices on DLR network 10.9.1 General 10.9.2 Supported topologies FigureĀ 36 ā DLR ring connected to switches through redundant gateways |
| 319 | 10.9.3 Redundant gateway capable device 10.9.4 Redundant gateway device behavior FigureĀ 37 ā DLR redundant gateway capable device |
| 320 | TableĀ 163 ā Redundant gateway variables |
| 321 | FigureĀ 38 ā Advertise frame |
| 322 | 10.10 DLR messages 10.10.1 General |
| 323 | 10.10.2 Common frame header TableĀ 164 ā MAC addresses for DLR messages TableĀ 165 ā IEEEĀ 802.1Q common frame header format TableĀ 166 āDLR message payload fields |
| 324 | 10.10.3 Beacon frame 10.10.4 Neighbor_Check request TableĀ 167 ā DLR frame types TableĀ 168 ā Format of the Beacon frame TableĀ 169 ā Ring State values |
| 325 | 10.10.5 Neighbor_Check_response 10.10.6 Link_Status/Neighbor_Status TableĀ 170 ā Format of the Neighbor_Check request TableĀ 171 ā Format of the Neighbor_Check response TableĀ 172 ā Format of the Link_Status/Neighbor_Status frame |
| 326 | 10.10.7 Locate_Fault 10.10.8 Announce 10.10.9 Sign_On TableĀ 173 ā Link/Neighbor status values TableĀ 174 ā Format of the Locate_Fault frame TableĀ 175 ā Format of the Announce frame |
| 327 | 10.10.10 Advertise 10.10.11 Flush_Tables TableĀ 176 ā Format of the Sign_On frame TableĀ 177 ā Format of the Advertise frame TableĀ 178 ā Gateway state values |
| 328 | 10.10.12 Learning_Update 10.11 State diagrams and state-event-action matrices 10.11.1 Beacon-based ring node TableĀ 179 ā Format of the Flush_Tables frame TableĀ 180 ā Format of the Learning_Update frame |
| 329 | FigureĀ 39 ā State transition diagram for Beacon frame based non-supervisor ring node TableĀ 181 ā Parameter values for Beacon frame based non-supervisor ring node |
| 330 | TableĀ 182 ā LastBcnRcvPort bit definitions TableĀ 183 ā State-event-action matrix for Beacon frame based non-supervisor ring node |
| 335 | 10.11.2 Announce-based ring node FigureĀ 40 ā State transition diagram for Announce frame basednon-supervisor ring node |
| 336 | TableĀ 184 ā Parameter values for Announce frame based non-supervisor ring node |
| 337 | TableĀ 185 ā State-event-action matrix for Announce frame basednon-supervisor ring node |
| 339 | 10.11.3 Ring supervisor |
| 340 | FigureĀ 41 ā State transition diagram for ring supervisor |
| 341 | TableĀ 186 ā Parameter values for ring supervisor node |
| 342 | TableĀ 187 ā LastBcnRcvPort bit definitions TableĀ 188 ā State-event-action matrix for ring supervisor node |
| 354 | 10.11.4 Redundant gateway |
| 355 | FigureĀ 42 ā State transition diagram for redundant gateway TableĀ 189 ā Parameter values for redundant gateway node |
| 357 | TableĀ 190 ā State-event-action matrix for redundant gateway node |
| 359 | 10.12 Performance analysis 10.12.1 General TableĀ 191 ā Parameters/assumptions for example performance calculations |
| 363 | 10.12.2 Redundant gateway switchover performance TableĀ 192 ā Example ring configuration parameters and performance TableĀ 193 ā Variables for performance analysis |
| 364 | 11 PRP and HSR redundancy protocols 11.1 General |
| 365 | 11.2 PRP overview 11.2.1 General FigureĀ 43 ā PRP network |
| 366 | 11.2.2 Address Conflict Detection (ACD) FigureĀ 44 ā Directly Attached SANs |
| 367 | 11.3 HSR overview FigureĀ 45 ā Virtual DANs FigureĀ 46 ā HSR network |
| 369 | AnnexĀ A (normative)Indicators and switches A.1 Purpose A.2 Indicators A.2.1 General indicator requirements A.2.2 Common indicator requirements |
| 370 | TableĀ A.1 ā Module status indicator |
| 371 | A.2.3 Fieldbus specific indicator requirements ā option 1 Table A.2 ā Time Sync status indication |
| 373 | TableĀ A.3 ā Network status indicators |
| 375 | A.2.4 Fieldbus specific indicator requirements ā option 2 FigureĀ A.1 ā Non redundant network status indicator labeling FigureĀ A.2 ā Redundant network status indicator labeling |
| 377 | TableĀ A.4 ā Network status indicator |
| 378 | FigureĀ A.3 ā Network status indicator state diagram Figure A.4 ā Examples of multiple network status indicators |
| 379 | A.2.5 Fieldbus specific indicator requirements ā option 3 |
| 380 | TableĀ A.5 ā Network status indicator |
| 381 | TableĀ A.6 ā Combined module/network status indicator |
| 382 | TableĀ A.7 ā I/O status indicator |
| 383 | A.3 Switches A.3.1 Common switch requirements A.3.2 Fieldbus specific switch requirements ā option 1 A.3.3 Fieldbus specific switch requirements ā option 2 |
| 384 | A.3.4 Fieldbus specific switch requirements ā option 3 TableĀ A.8 ā Bit rate switch encoding |
| 385 | Bibliography |
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