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Industrial communication networks -- Fieldbus Specifications -- Type 10: PROFINET IO specifications -- Part 2: Application layer protocol specification
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Basic data | Standard ID | GB/Z 25105.2-2010 (GB/Z25105.2-2010) | | Description (Translated English) | Industrial communication networks -- Fieldbus Specifications -- Type 10: PROFINET IO specifications -- Part 2: Application layer protocol specification | | Sector / Industry | National Standard | | Classification of Chinese Standard | N10 | | Classification of International Standard | 25.040 | | Word Count Estimation | 576,518 | | Date of Issue | 2010-09-02 | | Date of Implementation | 2010-12-01 | | Quoted Standard | IEC 61158-2; IEC 61158-3-11; IEC 61158-3-1; IEC 61158-3-12; IEC 61158-3-13; IEC 61158-3-14; IEC 61158-3-16; IEC 61158 - 3-17; IEC 61158-3-18; IEC 61158-3-19; IEC 61158-3-21; IEC 61158-3-2; IEC 61158-3-22; IEC 61158-3-3; IEC 61158-3 -4; IEC 61158-3-7; IEC 61158-3-8; IEC 61158-4-11; IEC 61158-4-1; IEC 61158-4-12; IEC 61158-4-13; IEC 61158-4 - 14; IEC 61158-4-16; IEC 61158-4-17; IEC 61158-4-18; IEC 61158-4-19; IEC 61158-4-21; IEC 61158-4-2; IEC 61158-4-22; IEC 61158-4-3; IEC 61158-4-4; IEC 61158-4-7; IEC 61158-4-8; IEC 61158-5-10; IEC 61158-5-11; IEC 61158-5-1; IEC 61158-5-12; IEC 61158-5-13; IEC 61158-5-14; IEC 61158-5-15; IEC 61158-5-16; IEC 61158-5-17; IEC 61158-5-18; IEC 61158-5-19; IEC 61158-5-20; IEC 61158-5-21; IEC 61158-5-2; IEC 61158-5-22; IEC 61158-5-3; IEC 61158-5-4; IEC 61158 -5-5; | | Adopted Standard | IEC 61158-6-10-2007, MOD | | Regulation (derived from) | ?National Standard Approval Announcement 2010 No.4 (Total No.159); PRC National Standard Approval Announcement 2014 No.22 | | Issuing agency(ies) | Ministry of Health of the People's Republic of China | | Summary | This standard specifies the message communication between applications, provide dedicated data elements and PROFINET 10 common fieldbus. The term " time-critical " is used to indicate the presence of a time window within this time window required to complete a specific level of certainty required for one or more specified actions. At this time the window is not completed within the specified action, the risk of failure of the application to request these actions, even accompanied resulting instrument, equipment and possible personal danger. | GBZ25105.2-2010: Industrial communication networks -- Fieldbus Specifications -- Type 10: PROFINET IO specifications -- Part 2: Application layer protocol specification
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Industrial communication networks. Fieldbus Specifications.Type 10. PROFINET IO specifications. Part 2. Application layer protocol specification
ICS 25.040
N10
People's Republic of China national standardization of technical guidance documents
Industrial Communication Network Fieldbus Specification
Type 10.PROFINETIO specification
Part 2. Application layer protocol specification
Part 2.Applicationlayerprotocolspecification
(IEC 61158-6-10.2007, Industrial communication networkss-
Fieldbusspecifications-Part 6-10.Applicationlayerprotocol
specification-Type10elements, MOD)
2010-09-02.2010-12-01 implementation
General Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China
China National Standardization Administration released
Directory
Preface XVII
Introduction XVIII
1 Scope 1
1.1 General 1
1.2 Specification 1
1.3 Consistency 1
2 Normative references 1
3 Terms, definitions, abbreviations, symbols and conventions 3
3.1 Terms and definitions cited 3
3.2 Additional Terms and Definitions for Distributed Automation 3
3.3 Additional Terms and Definitions for Distributed Peripherals 3
3.4 Additional abbreviations and symbols for distributed automation 10
3.5 Additional abbreviations and symbols for decentralized peripherals 10
3.6 Additional abbreviations and symbols for media redundancy 12
3.7 agreement 13
3.8 Conventions Used in State Machines 17
4 General Protocol Application Layer Protocol Specification 19
4.1 FAL Grammar Description 19
4.2 Transfer Syntax 21
4.3 Discovery and basic configuration 30
4.4 Precise time control 55
4.5 Media Redundancy 118
4.6 Live Loop 148
4.7 Real-time non-cyclic 163
4.8 Remote Procedure Calls 175
4.9 Link Layer Discovery 189
4.10 MAC Bridge 195
4.11 Virtual Bridge 210
4.12 IP protocol family 220
4.13 Domain Name System 222
4.14 Dynamic Host Configuration 222
4.15 Simple Network Management 223
4.16 Generic DLL Mapping Protocol Machine 244
5 Distributed Automation Application Layer Protocol Specification
6 Distributed Peripherals Application Layer Protocol Specification
6.1 FAL Syntax Description 251
6.2 Transfer Syntax
6.3 FAL protocol state machine 372
6.4 AP-Context State Machine 373
6.5 FAL service agreement machine 373
6.6 Application Relationship Protocol Machine 444
6.7 DLL Mapping Protocol Machine 534
Appendix A (informative) Filter Database (FDB) 535
Appendix B (informative) Partner AR 538
Appendix C (Informative) Establishment of Equipment Access AR 539
Appendix D (informative) Establishment of AR (simple process)
Appendix E (Informative) Establishment of AR (Acceleration Process) 541
Appendix F (Informative) Establishment of AR (Quick Start Procedure) 543
Appendix G (informative) Example of loading, storing and restoring procedures 544
Appendix H (Informative) Establishes AR 546 using RT_CLASS_3CR
Appendix I (informative) AlarmCR overview 547
Appendix J (informative) layer 548 of the OSI reference model
Appendix K (informative) IO device state machine overview 549
Appendix L (informative) IO controller state machine overview 550
Appendix M (Informative) Priority regeneration 551
Appendix N (Informative) Sync Master Hierarchy Overview 552
Appendix O (informative) IEEE802.1D model 554
Appendix P (Informative) Optimization of Bandwidth Usage 557
Appendix Q (Informative) Time Constraints for Bandwidth Allocation 559
Figure 1 General structure of special fields 14
Figure 2 special field octet 1 (high) of the common structure 15
Figure 3 special field octet 2 (low) general structure 15
Figure 4 special field octet 1 (high) general structure 16
Figure 5 special field octet 2 general structure 16
Figure 6 special field octet 3 common structure 16
Figure 7 special field octet 4 (low) general structure 17
Figure 8 encoding of data type BinaryDate 23
Figure 9 TimeofDay value encoding 24
Figure 10 TimeDifference value encoding 24
Figure 11 NetworkTime value encoding 24
Figure 12 NetworkTimeDifference value encoding 24
Figure 13 Time stamp corresponding to PTCP_Time and CycleCounter 60
Figure 14 Message Timestamp 64
Figure 15 4 message timestamps 64
Figure 16 has a subsequent line delay protocol 65
Figure 17 No Line Delay Protocol 65
Figure 18 Line Delay Measurement 66
Figure 19 Model parameters for GSDML usage 67
Figure 20 Bridge Delay Measurement 67
Figure 21 Delayed accumulation 68
Figure 22 Worst case of synchronized accumulation time deviations 68
Figure 23 Deviation Measurement Scheme 69
Figure 24 Deviation Measurement 69
Figure 25 Sending Sync-Frame 69 without FolowUp-Frame
Figure 26 Sending Sync-Frame 70 with FolowUp-Frame
Figure 27 Forward Sync-Frame and FolowUp-Frame 70
Figure 28 Conversion between synchronization variants 71
Figure 29 Delay request state transition Figure 72
Figure 30 Delayed Response State Transition Figure 79
Figure 31 Overview of PTCP 83
Figure 32 Status Conversion of BMA Figure 84
Figure 33 MPSM State Transition Figure 97
Figure 34 SPSM State Transition Figure 104
Figure 35 SRPM State Transitions Figure 111
Figure 36 SCHEDULER State Transition Diagram 116
Figure 37 MRM Protocol Machine 122 for MRP
Figure 38 MRC Protocol Machine 129
Figure 39 MRM Protocol Machine 137
Figure 40 MRR Protocol MRMT Machine 142
Figure 41 RRT_RELAY state transition diagram 145
Figure 42 Structure of CycleCounter 150
Figure 43 Status Transition Diagram for Generating Event 202
Figure 44 REDRELAY state transitions Figure 207
Figure 45 MUX state transition diagram 212
Figure 46 DEMUX state transition diagram 217
Figure 47 Protocol Machine Architecture (Bridge) in DMPM 245
Figure 48 FrameSendOffset and Cycle Time 294
Figure 49 Diagnostic, Maintenance and Qualified Classification 322
Figure 50 Definition of Retention Interval 334
Figure 51 PLLwindow definition 337
Figure 52 Detection of missing frames --- appears 344
Figure 53 Detection of missing frames --- disappear 344
Figure 54 protocol between the relationship between the 372
Figure B.1 Establishment of Partners AR 538
Figure C.1 Establishment of Equipment Access AR 539
Figure D.1 Accelerated IOAR setup (simple process)
Figure E.1 Error-Free IOAR Acceleration Setup 541
Figure E.2 Accelerated build of IOAR with "late" error 542
Figure F.1 Establishing IOAR 543 with Quick Start
Figure G.1 Example of storage 544
Figure G.2 Example of Recovering Storage 545
Figure H.1 AR 546 established using RT_CLASS_3CRs
Figure I.1 Using a High Priority AlarmCR Profile 547
Figure I.2 Using a Low Priority AlarmCR Profile 547
Figure J.1 OSI Reference Model Layer Allocation 548
Figure K.1 IO Device State Machine Overview 549
Figure L.1 IO Controller State Machine Overview 550
Figure N.1 Synchronization of the master level of the layer model 552
Figure N.2 Two-tier variant of synchronization master level 553
Figure O.1 IEEE802.1D model 554
Figure O.2 IEEE802.1D Model 555 for Frame Transmitter
Figure O.3 IEEE802.1D Model for Frame Receiver 556
Figure P.1 Equipment Construction in a Linear Structure 557
Figure P.2 Frame Propagation in Send Direction 557
Figure P.3 Frame Propagation in Receive Direction 558
Figure Q.1 Time Constraints for Bandwidth Allocation 559
Figure Q.2 Calculation of period length 559
Table 1 state machine description elements 17
Table 2 describes the state machine elements 17
Table 3 Conventions Used in State Machines 18
Table 4 DLPDU syntax according to IEEE 802.3
Table 5 IEEE 802.11 compliant DLPDU syntax 20
Table 6 DLPDU syntax according to IEEE802.15.1-2005
Table 7 SourceAddress 25
Table 8 DCP_MulticastMACAdd 25
Table 9 PTCP_MulticastMACAdd Range 1 26
Table 10 PTCP_MulticastMACAdd Range 2 26
Table 11 PTCP_MulticastMACAdd Range 3 26
Table 12 PTCP_MulticastMACAdd Range 4 26
Table 13 PTCP_MulticastMACAdd Range 5 26
Table 14 PTCP_MulticastMACAdd Range 6 26
Table 15 PTCP_MulticastMACAdd Range 7 26
Table 16 PTCP_MulticastMACAdd Range 8 27
Table 17 MRPOUI 27
Table 18 MRPMulticastMACAdd 27
Table 19 MRRTMulticastMACAdd 27
Table 20 LT (Length/Type) 27
Table 21 TagControlInformation.Priority 28
Table 22 FrameID Range 1 28
Table 23 FrameID Range 2 28
Table 24 FrameID range 3 29
Table 25 FrameID Range 4 29
Table 26 FrameID range 5 29
Table 27 FrameID range 6 29
Table 28 FrameID range 7 29
Table 29 FrameID Range 8 30
Table 30 FrameID Range 9 30
Table 31 DCPAPDU syntax 30
Table 32 DCP Replacement 31
Table 33 ServiceID 33
Table 34 ServiceType 34 for the request
Table 35 ServiceType 34 for response
ResponseDelayFactor 34
Table 37 Options Table 35
Table 38 Suboptions for Options IPOption Table 35
Table 39 Suboptions for Option DevicePropertiesOption Table 35
Table 40 Sub-options for DHCPOption Table 35
Table 41 Options Suboptions of ControlOption Table 36
Table 42 Sub-options for DeviceInitiativeOption Table 36
Table 43 SubSelections for AlSelectorOption Option 36
Table 44 Suboptions for Option ManufacturerSpecificOption Table 36
Table 45 Suboption DHCP 37
Table 46 Encoding of DCPBlocklength with SuboptionStart 37
Table 47 Encoding DCPBlocklength with SuboptionStop 38
Table 48 Encoding of DCPBlocklength in conjunction with SuboptionSignal
Table 49 Encoding of DCPBlocklength with SuboptionFactoryReset 38
Table 50 Encoding of DCPBlocklength in conjunction with SuboptionDeviceInitiative 38
Table 51 BlockQualifier with Option IP 39
Table 52 BlockQualifier 39 with Options DeviceProperties, DHCP, and ManufacturerSpecific 39
Table 53 BlockError 39
Table 54 BlockInfo 40 for SuboptionIPParameter
Table 55 Bit 1 and Bit 0 40 for BlockInfo for SuboptionIPParameter
Table 56 BitInfo for SuboptionIPParameter 7 7
Table 57 BlockInfo 40 for all other suboptions
Table 58 DeviceInitiativeValue 40
Table 59 SignalValue 40
Table 60 DeviceRoleDetails 42
Table 61 IPAddress 42
Table 62 Subnetmask 42
Table 63 StandardGateway 43
Table 64 DCPUCS Status Table 46
Table 65 DCPUCR Status Table 48
Table 66 DCPMCS Status Table 50
Table 67 DCPMCR Status Table 52
Table 68 DCPHMCS Status Table 53
Table 69 DCPHMCR Status Table 54
Table 70 PTCPAPDU syntax 55
Table 71 PTCP Alternative 55
Table 72 PTCP_TLVHeader.Type 56
Table 73 PTCP_Delay10ns 57
Table 74 PTCP_Delay1ns_Byte.Value 57
Table 75 PTCP_Delay1ns 57
Table 76 PTCP_Delay1ns_FUP 57
Table 77 PTCP_SequenceID 58
Table 78 PTCP_SubType (= 00-0E-CF) 58 for OUI
Table 79 PTCP_NanoSeconds 58
Table 80 PTCP_Flags.LeapSecond 59
Table 81 Time stamps between MJD, UTC and PTCP_EpochNumber 59
Table 82 PTCP_EpochNumber, PTCP_Second, PTCP_Nanosecond, CycleCounter, and SendClockFactor
The corresponding time scale 59
Table 83 PTCP_MasterPriority1 60 for SyncID == 0 and SyncProperties.Role == 2
Table 84 PTCP_MasterPriority1 60 for SyncID == 0 and SyncProperties.Role == 1
Table 85 PTCP_MasterPriority1 61 for SyncID == 1 and SyncProperties.Role == 2
Table 86 PTCP_MasterPriority1 61 for SyncID == 1 and SyncProperties.Role == 1
Table 87 PTCP_MasterPriority2 61
Table 88 PTCP_ClockClass 61 for SyncID == 0 (Time Synchronization)
Table 89 PTCP_ClockClass 62 for SyncID == 1 (Time Synchronization)
Table 90 PTCP_ClockAccuracy 62
Table 91 PTCP_ClockVariance 63
Table 92 PTCP_T2TimeStamp 63
Table 93 DelayRequest Status Table 73
Table 94 Macros used by DelayRequest 77
Table 95 Functions Used by DelayRequest 78
Table 96 DelayResponse Status Table 80
Table 97 Macros Used by DelayResponse 81
Table 98 Functions Used by DelayResponse 82
Table 99 BMA Status Table 85
Table 100 BMA Best Remote Sync Master (RSM) Status Table
Table 101 BMA Obtains Best Synchronization Master (GB SM) Status Table 93
Table 102 Macros Used by the BMA 95
Table 103 Functions Used by the BMA 96
Table 104 MPSM Status Table 98
Table 105 Macros Used by MPSM
Table 106 Functions Used by MPSM 102
Table 107 SPSM Status Table 105
Table 108 Macros Used by SPSM
Table 109 Features Used by SPSM
Table 110 SRPM Status Table 111
Table 111 Macros Used by SRPM 114
Table 112 SRPM Features Used
Table 113 SCHEDULER Status Table
Table 114 MRPAPDU Syntax 118
Table 115 MRP Replacement 118
Table 116 MRP_TLVHeader.Type 119
Table 117 MRP_Prio 119
Table 118 MRP_PortRole 120
Table 119 MRP_RingState 120
Table 120 MRP_Interval 120
Table 121 MRP_Transition 120
Table 122 MRP_TimeStamp 120
Table 123 MRP_DomainUUID 121
Table 124 MRRTAPDU Syntax 121
Table 125 MRRT substitution 121
Table 126 MRRT_TLVHeader.Type 121
Table 127 MRRT_DomainUUID 122
Table 128 Local Variables for MRM Protocol 123
Table 129 MRM State Machine 124
Table 130 Local Variables for MRC Protocol 130
Table 131 MRC state machine 130
Table 132 Function 134
Table 133 FDBClearTimer 136
Table 134 TopologyChangeTimer 137
Table 135 Local Variables for MRM Protocol Machine for MRRT Activation 138
Table 136 MRM State Machine 138 for MRRT Activation
Table 137 MRRT activated MRC state machine 143
Table 138 MRM and MRC Features 144
Table 139 RRT_RELAY Status Table 146
Table 140 Macros Used by RRT_RELAY 148
Table 141 RTCAPDU Syntax 148
Table 142 RTC Alternative 149
Table 143 CycleCounterDifference 149
Table 144 DataStatus.State 150
Table 145 DataStatus.DataValid 150
Table 146 DataStatus.ProviderState 150
Table 147 DataStatus.StationProblemIndicator 151
Table 148 TransferStatus 151 for RT_CLASS_3
Table 149 IOxS.Extension 152
Table 150 IOCS.Instance 152
Table 151 IOxS.DataState 152
Table 152 PPM Status Table
Table 153 PPM Features Used 156
Table 154 CPM Status Table 157
Table 155 Features Used by CPM
Table 156 RTAAPDU syntax 163
Table 157 RTA Alternative 163
Table 158 PDUType.Type 164
Table 159 PDUType.Version 164
Table 160 APMS Status Table 166
Table 161 Features Used by APMS and APMR
Table 162 A_Timer_add 171
Table 163 A_Timer_event 171
Table 164 A_Timer_remove 171
Table 165 APMR Status Table 172
Table 166 RPCAPDU Syntax 176
Table 167 RPC Replacement 176
Table 168 RPCPacketType 177
Table 169 RPCFlags 178
Table 170 RPCFlags2 178
Table 171 RPCDRep.Character- and IntegerEncoding 178
Table 172 RPCDRepOctet2 - Floating-point notation 179
Table 173 RPCObjectUUID.Data4 179
Table 174 PNIO RPCObjectUUID 179
Table 175 PNIO RPCInterfaceUUID 180
Table 176 RPC endpoint mapper RPCInterfaceUUID 180
Table 177 RPCOperationNmbs (IO Device, IO Controller, and IO Monitor) 181
Table 178 Endpoint Mapper's RPCOperationNmb 181
The value 182 defined by RPCDataRepresentationUUID
Table 180 RPCInquiryType 183
Table 181 RPCEPMapStatus 185
Table 182 NCAFaultStatus value 186
Table 183 Value of NCARejectStatus 187
Table 184 LLDPAPDU syntax 189
Table 185 LLDP Alternative 189
Table 186 LLDP_PNIO_SubType 191
Table 187 PTCP_PortRxDelayLocal 191
Table 188 PTCP_PortRxDelayRemote 191
Table 189 PTCP_PortTxDelayLocal 191
Table 190 PTCP_PortTxDelayRemote 192
Table 191 CableDelayLocal 192
Table 192 RTClass2_PortStatus.State 192
Table 193 RTClass3_PortStatus.State 192
Table 194 MRRT_PortStatus.State 193
Table 195 LLDP_RedPeriodBegin.Offset 193
Table 196 LLDP_RedPeriodBegin.Valid 193
Table 197 LLDP_OrangePeriodBegin.Offset 194
Table 198 LLDP_OrangePeriodBegin.Valid 194
Table.199 LLDP_GreenPeriodBegin.Offset 194
Table.200 LLDP_GreenPeriodBegin.Valid 194
Table.201 LLDP_LengthOfPeriod.Length 194
Table 202 LLDP_LengthOfPeriod.Valid 195
Table 203 primitives issued by LLDP to RTC3 PSM 196
Table 204 is a primitive 196 issued by IEEE 802.3 to RTC3 PSM
Table 205 primitives issued by PTCP to RTC3 PSM 196
Table 206 primitives issued by IEEE802.1D to RTC3 PSM 196
Table 207 The primitive 196 sent by the RTC3 PSM to IEEE802.1D
Table 208 RTC3PSM Status Table 196
Table 209 RTC3PSM Menu 202
Table 210 Event Menu 203
Table 211 primitives issued by LLDP to RTC2 PSM 203
Table 212 primitives issued by IEEE 802.3 to RTC2 PSM 203
Table 213 primitives issued by PTCP to RTC2 PSM 203
The table 214 is issued by the IEEE802.1D to the primitive 204 of the RTC2 PSM
Table 215 primitives 204 issued by RTC2 PSM to IEEE 802.1D
Table 216 RTC2 PSM Status Table 204
Table 217 RTC2PSM Menu 206
Table 218 REDRELAY Status Table 207
Table 219 REDRELAY Menu 210
Table 220 REDRELAY Macro Table 210
Table 221 primitives sent by MUX to MAC 211
Table 222 primitives 211 sent by the MAC to the MUX
Table 223 MUX Status Table 212
Table 224 MUX Menu 216
Table 225 primitives sent by MAC to DEMUX 216
Table 226 DEMUX Status Table 217
Table 227 DEMUX Menu 220
Table 228 DEMUX Macro Table 220
Table 229 IP/UDPAPDU syntax 220
Table 230 IP/UDP Alternative 221
Table 231 UDP_SrcPort 221
Table 232 UDP_DstPort 221
Table 233 IP_DstIPAddress 222
Table 234 IPmulticastDstIPAddress 222 compliant with RFC2365
Table 235 Enterprisenumber 223
Table 236 LMPM Status Table 246
Table 237 LMPM Macro Table 250
Table 238 LMPM Menu 251
Table 239 IOAPDU substitutions 251
Table 240 BlockType 264
Table 241 AlarmType 268
Table 242 AlarmSpecifier.ChannelDiagnosis 269
Table 243 AlarmSpecifier.ManufacturerSpecificDiagnosis 270
Table 244 AlarmSpecifier.SubmoduleDiagnosisState 270
Table 245 AlarmSpecifier.ARDiagnosisState 270
Table 246 API 271
Table 247 SlotNumber 271
SubslotNumber 271
Table 249 Grouping of DiagnosisData 273
Table 250 Index (user-specific) 274
Table 251 Index (Child Slot Only) 274
Table 252 Index (slot-specific) 276
Table 253 Index (AR only) 276
Table 254 Index (API only) 277
Table 255 Index 277
Table 256 ARType 278
Table 257 IOCRMulticastMACAdd 279 using RT_CLASS_UDP
Table 258 uses IOCRMulticastMACAdd 279 for RT_CLASS_2 or RT_CLASS_3
Table 259 Type10OUI 279
Table 260 ARProperties.State 280
Table 261 ARProperties.SupervisorTakeoverAlowed 280
Table 262 TARProperties.ParametrizationServer 280
Table 263 ARProperties.DeviceAccess 280
Table 264 ARProperties.CompanionAR 280
Table 265 ARProperties.AcknowledgeCompanionAR 281
Table 266 ARProperties.PulModuleAlarmAlowed 281
Table 267 IOCRProperties.RTClass 281
Table 268 IOCRProperties.MediaRedundancy 281
Table 269 IOCRTagHeader.IOCRVLANID 282
Table 270 IOCRTagHeader.IOUserPriority 282
Table 271 IOCRType 282
Table 272 CMInitiatorActivityTimeoutFactor with ARProperties.DeviceAccess. = 0 283
Table 273 CMInitiatorActivityTimeoutFactor with ARProperties.DeviceAccess. = 1 283
Table 274 LengthIOCS 283
Table 275 LengthIOPS 284
Table 276 AlarmCRProperties.Priority 284
Table 277 AlarmCRProperties.Transport 284
Table 278 AlarmCRTagHeaderHigh.AlarmCRVLANID 284
Table 279 AlarmCRTagHeaderHigh.AlarmUserPriority 285
Table 280 AlarmCRTagHeaderLow.AlarmCRVLANID 285
Table 281 AlarmCRTagHeaderLow.AlarmUserPriority 285
Table 282 AlarmSequenceNumber 285
Table 283 AlarmCRType 285
Table 284 RTATimeoutFactor 286
Table 285 RTARetries 286
Table 286 AddressResolutionProperties.Protocol 286
TableResolution AddressProperties.Factor 287
Table 288 MCITimeoutFactor 287
Table 289 ModuleIdentNumber 287
Table 290 SubmoduleIdentNumber 288
Table 291 ControlBlockProperties 289 associated with ControlCommand.ApplicationReady
Table 292 ControlBlockProperties 289 associated with the other values of the Field ControlCommand
Table 293 ControlCommand.PrmEnd 289
Table 294 ControlCommand.ApplicationReady 289
Table 295 ControlCommand.Release 289
Table 296 ControlCommand.Done 289
Table 297 ControlCommand.ReadyForCompanion 290
Table 298 ControlCommand.ReadyForRT_CLASS_3 290
Table 299 DataDescription.Type 290
Table 300 SendClockFactor value 291
Table 301 ReductionRatio value 291
Table 302 Phase value 292
Table 303 Sequence value 292
Table 304 DataHoldFactor 293
Table 305 WatchdogFactor 293
Table 306 FrameSendOffset value 293
Table 307 Negative response ErrorCode value 294
Table 308 ErrorDecode value 295
Table 309 is for ErrorCodel encoding 295 with an ErrorDecode value of PNIORW
Table 310 is for value 297 of ErrorCode1 and ErrorCode2 with an ErrorDecode value of PNIO
Table 311 ErrorCode2 value 303 for ErrorCode1 = RPC
Table 312 ModuleState 304
Table 313 SubmoduleState.AddInfo 304
Table 314 SubmoduleState.QualifiedInfo 304
Table 315 SubmoduleState.MaintenanceRequired 304
Table 316 SubmoduleState.MaintenanceDemanded 304
Sub 317. SubmoduleState.DiagInfo 305
Table 318 SubmoduleState.ARInfo 305
Table 319 SubmoduleState.IdentInfo 305
Table 320 SubmoduleState.FormatIndicator 305
Table 321 SubmoduleState.Detail 306
Table 322 SubmoduleProperties.Type 306
Table 323 SubmoduleProperties.SharedInput 306
Table 324 SubmoduleProperties.ReduceInputSubmoduleDataLength 307
Table 325 SubmoduleProperties.ReduceOutputSubmoduleDataLength 307
Table 326 SubmoduleProperties.DiscardIOXS 307
Table 327 SubstitutionMode 307
Table 328 Substitute ActiveFlag 308
Table 329 InitiatorUDPRTPort 308
Table 330 ResponderUDPRTPort 308
Table 331 InitiatorRPCServerPort 308
Table 332 ResponderRPCServerPort 308
Table 333 IM_Hardware_Revision 309
Table 334 IM_SWRevision_Functional_Enhancement 309
Table 335 IM_SWRevision_Bug_Fix 309
Table 336 IM_SWRevision_Internal_Change 309
Table 337 IM_Revision_Counter 309
Table 338 IM_Profile_ID 310
Table 339 IM_Profile_Specific_Type 310
Table 340 IM_Version_Major 310
Table 341 IM_Version_Minor 310
Table 342 IM_Date 311
Table 341 UserStructureIdentifier 312
Table 344 ChannelErrorType 313
Table 345 ChannelNumber 315
Table 346 ChannelProperties.Type 315
Table 347 Valid combinations within ChannelProperties 316
Table 348 is a valid combination of Alarmnotification and Record-DataRead (DiagnosisData) 316
Table 349 ChannelProperties.Specifier 317
Table 350 ChannelProperties.Direction 317
Table 351 ExtChannelErrorType 318
Table 352 ExtChannelErrorType 318 for ChannelErrorType0 ~ 0x7FFF
Table 353 ExtChannelErrorType 318 for ChannelErrorType "Datatransmissionimpossible"
Table 354 ExtChannelErrorType 318 for ChannelErrorType "Remotemismatch"
Table 355 ExtChannelErrorType 319 for ChannelErrorType "Mediaredundancymismatch"
Table 356 ChannelErrorType "Syncmismatch" and ChannelErrorType "Timemismatch"
ExtChannelErrorType 319
Table 357 ExtC...
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