BS EN IEC 61158-5-10:2019
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Industrial communication networks. Fieldbus specifications – Application layer service definition. Type 10 elements
Published By | Publication Date | Number of Pages |
BSI | 2019 | 638 |
IEC 61158-5-10:2019 (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 IEC 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 and constitutes a technical revision which includes the following significant technical changes with respect to the previous edition: ā integration of system redundancy basic functionality; ā integration of dynamic reconfiguration basic functionality; ā integration of reporting system basic functionality; ā-integration of asset management basic functionality; ā integration of media redundancy ring interconnection basic functionality.
PDF Catalog
PDF Pages | PDF Title |
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2 | National foreword |
5 | Annex ZA(normative)Normative references to international publicationswith their corresponding European publications |
9 | CONTENTS |
22 | FOREWORD |
24 | INTRODUCTION |
25 | 1 Scope 1.1 General |
26 | 1.2 Specifications 1.3 Conformance 2 Normative references |
29 | 3 Terms, definitions, abbreviations, symbols and conventions 3.1 Referenced terms and definitions 3.1.1 ISO/IECĀ 74981 terms 3.1.2 ISO/IECĀ 8822 terms 3.1.3 ISO/IECĀ 9545 terms |
30 | 3.1.4 ISO/IECĀ 88241 terms 3.2 Additional Type 10 terms and definitions |
37 | 3.3 Additional Type 10 terms and definitions for media redundancy |
39 | 3.4 Abbreviations and symbols 3.4.1 General |
40 | 3.4.2 Additional Type 10 abbreviations and symbols |
41 | 3.4.3 Abbreviations and symbols for services 3.5 Conventions 3.5.1 Overview 3.5.2 General conventions 3.5.3 Conventions for class definitions |
43 | 3.5.4 Conventions for service definitions |
44 | 3.5.5 Conventions used in state machines Tables TableĀ 1 ā State machine description elements |
45 | TableĀ 2 ā Description of state machine elements TableĀ 3 ā Conventions used in state machines |
46 | TableĀ 4 ā Conventions for services used in state machines |
47 | 4 Concepts 5 Data type ASE 5.1 General 5.1.1 Overview |
48 | 5.1.3 Transfer of user data 5.1.4 Data type overview TableĀ 5 ā Data type overview |
51 | 5.2 Formal definition of data type objects 5.2.1 Data type class |
52 | 5.3 FAL defined data types 5.3.1 Fixed length types |
53 | TableĀ 6 ā V2 octets TableĀ 7 ā L2 octets |
54 | TableĀ 8 ā E2 octets TableĀ 9 ā E2 value range |
55 | TableĀ 10 ā Unipolar2.16 octets TableĀ 11 ā Unipolar2.16 value range |
56 | TableĀ 12 ā N2 value range |
57 | TableĀ 13 ā N4 value range |
58 | TableĀ 14 ā X2 value range |
59 | TableĀ 15 ā X4 value range |
60 | TableĀ 16 ā C4 value range |
61 | TableĀ 17 ā T2 value range |
62 | TableĀ 18 ā T4 value range |
63 | TableĀ 19 ā D2 value range TableĀ 20 ā R2 value range |
64 | TableĀ 21 ā Status value range |
65 | TableĀ 22 ā Status value range |
69 | TableĀ 23 ā F message trailer with 4 octets |
71 | TableĀ 24 ā Unsigned16_S octets TableĀ 25 ā Unsigned16_S meaning |
72 | TableĀ 26 ā Integer16_S octets TableĀ 27 ā Integer16_S meaning TableĀ 28 ā Unsigned8_S octets TableĀ 29 ā Unsigned8_S meaning |
73 | 5.3.2 Variable Length types TableĀ 30 ā OctetString_S octets |
74 | TableĀ 31 ā OctetString_S status bits |
76 | 5.4 Data type ASE service specification 6 Communication model for common services 6.1 Concepts 6.1.1 Overview 6.1.2 Middle Layer ASEs 6.2 ASE data types 6.3 Application Service Elements 6.3.1 Remote procedure call ASE Figures FigureĀ 1 ā Middle Layer ASEs communication architecture |
78 | FigureĀ 2 ā Sequence Chart for reading the EndPointMapper |
79 | TableĀ 32 ā Connect |
80 | TableĀ 33 ā Release |
81 | TableĀ 34 ā Read |
82 | TableĀ 35 ā Write |
83 | TableĀ 36 ā Control |
84 | TableĀ 37 ā ReadImplicit |
85 | 6.3.2 Domain name system ASE |
86 | 6.3.3 Simple network management ASE |
87 | 6.3.4 IP suite ASE |
90 | TableĀ 38 ā Add Static ARP Cache Entry TableĀ 39 ā Remove Static ARP Cache Entry |
91 | 6.3.5 Real time cyclic ASE |
96 | TableĀ 40 ā PPM Set Prov Data |
97 | TableĀ 41 ā PPM Set Prov Status |
98 | TableĀ 42 ā PPM Activate |
100 | TableĀ 43 ā PPM Close |
101 | TableĀ 44 ā PPM Start TableĀ 45 ā PPM Error TableĀ 46 ā Get Cons Data |
102 | TableĀ 47 ā CPM Get cons status |
103 | TableĀ 48 ā CPM Set RedRole |
104 | TableĀ 49 ā CPM Activate |
106 | TableĀ 50 ā CPM NoData TableĀ 51 ā CPM Stop |
107 | 6.3.6 Real time acyclic ASE TableĀ 52 ā CPM New Data Indication |
110 | TableĀ 53 ā APMS Activate |
111 | TableĀ 54 ā APMR Activate |
113 | TableĀ 55 ā APMS A Data |
114 | TableĀ 56 ā APMR A Data TableĀ 57 ā APMR Ack |
115 | TableĀ 58 ā APMS Error TableĀ 59 ā APMS Error ERRCLS/ERRCODE |
116 | TableĀ 60 ā APMR Error TableĀ 61 ā APMR Error ERRCLS/ERRCODE TableĀ 62 ā APMS_Close |
117 | 6.3.7 Discovery and basic configuration ASE TableĀ 63 ā APMR_Close |
125 | TableĀ 64 ā Get |
130 | TableĀ 65 ā Set |
135 | TableĀ 66 ā Local Set Command |
137 | TableĀ 67 ā Identify |
143 | TableĀ 68 ā Hello |
145 | 6.3.8 Dynamic host configuration ASE 6.3.9 IEEE 802.1AB ASE |
151 | TableĀ 69 ā System capabilities |
152 | TableĀ 70 ā Auto negotiation support and status |
153 | TableĀ 71 ā MDI Power Support TableĀ 72 ā Link aggregation status |
157 | TableĀ 73 ā Remote systems data change |
158 | 6.3.10 Media redundancy ASE |
164 | FigureĀ 3 ā Media redundancy diagnosis dependencies |
165 | 6.3.11 Precision time control ASE FigureĀ 4 ā PTCP applications |
172 | TableĀ 74 ā Start bridge |
173 | TableĀ 75 ā Start slave |
174 | TableĀ 76 ā Start master |
175 | TableĀ 77 ā Stop bridge |
176 | TableĀ 78 ā Stop slave |
177 | TableĀ 79 ā Stop master TableĀ 80 ā Sync state change |
178 | TableĀ 81 ā Line Delay change |
179 | 6.3.12 IEEE 802.1AS ASE |
181 | TableĀ 82 ā Local Get Time TableĀ 83 ā Local time state info |
182 | 6.3.13 Virtual Bridges ASE |
184 | FigureĀ 5 ā Example of periods at a local port |
185 | 6.3.14 MAC Bridges ASE |
188 | TableĀ 84 ā Allowed values of Forwarding Mode TableĀ 85 ā Allowed values of Fast Forwarding Multicast MAC Add |
191 | TableĀ 86 ā Tx Port Entry |
194 | TableĀ 87 ā Dependencies of RedPeriodBegin and GreenPeriodBegin |
197 | TableĀ 88 ā Port state change TableĀ 89 ā Set port state |
198 | 6.3.15 Fragmentation ASE TableĀ 90 ā Flush filtering data base |
199 | 6.3.16 IEEE 802.3 ASE |
201 | TableĀ 91 ā MAU Type change TableĀ 92 ā Set MAU Type |
202 | 6.3.17 Common DL mapping ASE TableĀ 93 ā P Data |
204 | TableĀ 94 ā N Data |
205 | TableĀ 95 ā A Data |
206 | TableĀ 96 ā C Data |
207 | 7 Communication model for decentralized periphery 7.1 Concepts 7.1.1 User requirements 7.1.2 Features TableĀ 97 ā Requirements and features |
208 | 7.1.3 Associations FigureĀ 6 ā Example of communication between controlling devices and field devices |
209 | 7.1.4 Device types FigureĀ 7 ā Example of communication between an engineering stationand several controlling and field devices FigureĀ 8 ā Example of communication between field devices and a server station FigureĀ 9 ā Example of communication between field devices |
213 | Figure 10 ā Data Objects and Diagnosis Data Model |
214 | Figure 11 ā Example for channel modelling |
215 | Figure 12 ā Mapping to PROFINET device model FigureĀ 13 ā Identification hierarchy |
217 | 7.1.5 Instance model and device addresses 7.1.6 Application process |
218 | FigureĀ 14 ā Application Process with application process objects (APOs) |
219 | FigureĀ 15 ā Access to a remote APO |
220 | FigureĀ 16 ā Access to a remote APO for provider/consumer association |
221 | FigureĀ 17 ā Overview of application processes FigureĀ 18 ā IO device with APs, slots and subslots |
223 | FigureĀ 19 ā Example 1 structural units for interfaces and ports within API 0 |
224 | 7.1.7 Application service element FigureĀ 20 ā Example 2 structural units for interfaces and ports within API 0 |
225 | FigureĀ 21 ā FAL ASEs communication architecture |
226 | 7.1.8 Application relationship |
227 | 7.2 ASE data types 7.3 ASEs 7.3.1 AR ASE FigureĀ 22 ā Example of one AR with two AREPs |
230 | FigureĀ 23 ā Example IO application relationship (one-to-one) |
231 | FigureĀ 24 ā Example IO application relationship one-to-many |
232 | FigureĀ 25 ā Implicit application relationship |
233 | TableĀ 98 ā Binding application relationship services |
236 | TableĀ 99 ā Device Access TableĀ 100 ā Companion AR |
237 | TableĀ 101 ā Acknowledge Companion AR TableĀ 102 ā Startup Mode TableĀ 103 ā Pull Module Alarm Allowed |
240 | TableĀ 104 ā Input Valid on Backup AR |
241 | TableĀ 105 ā Mode Table 106 ā APStructureIdentifier with API := 0 |
242 | Table 107 ā APStructureIdentifier with API != 0 TableĀ 108 ā RS Alarm Transport Mode |
244 | TableĀ 109 ā Connect |
250 | TableĀ 110 ā Connect Device Access |
251 | TableĀ 111 ā Release |
253 | TableĀ 112 ā Prm Begin |
255 | TableĀ 113 ā Prm End |
256 | TableĀ 114 ā Application Ready |
257 | TableĀ 115 ā Abort |
258 | TableĀ 116 ā Local AR Abort TableĀ 117 ā Local Set AR State TableĀ 118 ā Local AR In Data |
259 | TableĀ 119 ā Data elements of Read AR Data |
261 | TableĀ 120 ā Data elements of Expected Fast Startup Data |
262 | TableĀ 121 ā Remote primitives issued or received by DEVSM |
263 | TableĀ 122 ā Local primitives issued or received by DEVSM |
264 | FigureĀ 26 ā State transition diagram DEVSM |
265 | TableĀ 123 ā State table DEVSM |
270 | TableĀ 124 ā Functions, Macros, Timers and Variables by DEVSM |
271 | TableĀ 125 ā Remote primitives issued or received by CTLSM TableĀ 126 ā Local primitives issued or received by CTLSM |
272 | FigureĀ 27 ā State transition diagram CTLSM |
273 | TableĀ 127 ā State table CTLSM |
275 | TableĀ 128 ā Functions, Macros, Timers and Variables used by CTLSM |
277 | FigureĀ 28 ā Assignment of Communication Relationship to Application Relationship |
280 | FigureĀ 29 ā Overview Communication Relationship Class service interactions |
281 | TableĀ 129 ā Binding communication relationship services |
283 | TableĀ 130 ā Traffic Classes versus RT Class |
291 | TableĀ 131 ā Local Set Input |
292 | TableĀ 132 ā Local Set Input IOCS |
293 | TableĀ 133 ā Local Get Input |
294 | TableĀ 134 ā Local Get Input IOCS |
295 | TableĀ 135 ā Local New Input |
296 | TableĀ 136 ā Local Set Output |
297 | TableĀ 137 ā Local Set Output IOCS |
298 | TableĀ 138 ā Local Get Output |
299 | TableĀ 139 ā Local Get Output IOCS |
300 | TableĀ 140 ā Local New Output |
301 | TableĀ 141 ā Local Set Provider State |
302 | TableĀ 142 ā Local Set Redundancy TableĀ 143 ā Local Set State |
303 | TableĀ 144 ā Local Data State Changed |
310 | TableĀ 145 ā Binding expected identification services |
312 | TableĀ 146 ā Module State |
315 | TableĀ 147 ā AR Info |
316 | TableĀ 148 ā Ident Info TableĀ 149 ā General Data definition for identification services |
318 | TableĀ 150 ā Data elements of Read Module Diff Block |
322 | TableĀ 151 ā Alarm type |
324 | TableĀ 152 ā Alarm types attached to diagnosis ASE TableĀ 153 ā Alarm types attached to ownership |
325 | TableĀ 154 ā Alarm types attached to common profiles, profiles, and application TableĀ 155 ā Binding Alarm services |
329 | TableĀ 156 ā Alarm Notification |
331 | TableĀ 157 ā Channel Diagnosis TableĀ 158 ā Manufacturer Specific Diagnosis |
332 | TableĀ 159 ā Submodule Diagnosis State TableĀ 160 ā AR Diagnosis State |
333 | TableĀ 161 ā User Structure Identifier |
335 | TableĀ 162 ā Semantics of Specifier |
343 | FigureĀ 30 ā Example for an intersection of IO device, slot, and AR TableĀ 163 ā Binding Record Data services |
345 | TableĀ 164 ā Read |
347 | TableĀ 165 ā Read Services |
349 | TableĀ 166 ā Read Implicit |
350 | TableĀ 167 ā Read Query |
351 | TableĀ 168 ā Write |
352 | TableĀ 169 ā Write Services |
353 | TableĀ 170 ā Data elements of Write Combined Object Container |
354 | TableĀ 171 ā Local Write Multiple |
357 | TableĀ 172 ā Local New Write Multiple |
362 | 7.3.2 Real Identification ASE |
363 | TableĀ 173 ā Binding real identification services |
366 | TableĀ 174 ā Local Add Submodule |
367 | TableĀ 175 ā Local Remove Submodule TableĀ 176 ā Local Update Submodule |
369 | TableĀ 177 ā Data elements of Read API Data |
370 | TableĀ 178 ā Data elements of Read Record Input Data Object Element |
371 | Figure 31 ā Substitute Value |
373 | TableĀ 179 ā Data elements of Read Record Output Data Object Element |
374 | TableĀ 180 ā Data elements of Read Substitute Value |
376 | TableĀ 181 ā Selector for Read GSD Data TableĀ 182 ā Data elements of Read GSD Data |
378 | TableĀ 183 ā Remote primitives issued or received by RSMSM TableĀ 184 ā Local primitives issued or received by RSMSM |
379 | FigureĀ 32 ā State transition diagram RSMSM TableĀ 185 ā State table RSMSM |
381 | TableĀ 186 ā Functions, Macros, Timers and Variables used by RSMSM TableĀ 187 ā Rules for Submodule State.Ident Info |
383 | FigureĀ 33 ā Ownership handling |
385 | TableĀ 188 ā Remote primitives issued or received by OWNSM and ASSSM |
386 | FigureĀ 34 ā State transition diagram OWNSM TableĀ 189 ā Local primitives issued or received by OWNSM |
387 | FigureĀ 35 ā State transition diagram ASSSM TableĀ 190 ā State table OWNSM |
394 | TableĀ 191 ā State table ASSSM |
395 | TableĀ 192 ā Functions, Macros, Timers and Variables used by OWNSM |
396 | TableĀ 193 ā Functions, Macros, Timers and Variables used by ASSSM TableĀ 194 ā Rules for Submodule State.AR Info |
397 | TableĀ 195 ā Remote primitives issued or received by PLUGSM |
398 | TableĀ 196 ā Local primitives issued or received by PLUGSM |
399 | FigureĀ 36 ā State transition diagram PLUGSM |
400 | TableĀ 197 ā State table PLUGSM |
401 | TableĀ 198 ā Functions, Macros, Timers and Variables used by PLUGSM |
402 | FigureĀ 37 ā State transition diagram PULLSM TableĀ 199 ā Remote primitives issued or received by PULLSM TableĀ 200 ā Local primitives issued or received by PULLSM |
403 | TableĀ 201 ā State table PULLSM |
404 | TableĀ 202 ā Functions, Macros, Timers and Variables used by PULLSM |
406 | TableĀ 203 ā Binding I&M data services |
419 | TableĀ 204 ā Data elements of Read I&M0 Filter Data |
422 | TableĀ 205 ā Data elements of Read I&M0 Data |
423 | TableĀ 206 ā Data elements of Write I&M1 Data |
424 | TableĀ 207 ā Data elements of Write I&M2 Data |
425 | TableĀ 208 ā Data elements of Write I&M3 Data TableĀ 209 ā Data elements of Write I&M4 Data |
426 | TableĀ 210 ā Data elements of Read I&M5 Data |
429 | TableĀ 211 ā Data elements of Read Asset Management Data |
431 | FigureĀ 38 ā Basic model for isochronous applications |
432 | FigureĀ 39 ā General isochronous application model (example CACF == 1) |
433 | FigureĀ 40 ā General isochronous application model (example CACF == 2) TableĀ 212 ā Binding Isochronous Mode Application services |
438 | TableĀ 213 ā Data elements of Write Isochronous Mode Data |
439 | FigureĀ 41 ā ASE relations in an IO device operating in isochronous mode for a submodule |
440 | TableĀ 214 ā Remote primitives issued or received by ISOM_SYNC TableĀ 215 ā Local primitives issued or received by ISOM_SYNC |
441 | FigureĀ 42 ā State transition diagram of ISOM_SYNC TableĀ 216 ā State table ISOM_SYNC |
442 | TableĀ 217 ā Functions, Macros, Timers and Variables used by the ISOM_SYNC TableĀ 218 ā Remote primitives issued or received for ISOM_OUT |
443 | TableĀ 219 ā Local primitives issued or received for ISOM_OUT |
444 | FigureĀ 43 ā State transition diagram ISOM_OUT |
445 | TableĀ 220 ā State table ISOM_OUT |
447 | TableĀ 221 ā Functions, Macros, Timers and Variables used by the ISOM_OUT |
448 | TableĀ 222 ā Remote primitives issued or received for ISOM_IN TableĀ 223 ā Local primitives issued or received for ISOM_IN |
449 | FigureĀ 44 ā State transition diagram ISOM_IN |
450 | TableĀ 224 ā State table ISOM_IN |
451 | TableĀ 225 ā Functions, Macros, Timers and Variables used by the ISOM_IN |
452 | 7.3.3 Communication Interface Management ASE |
453 | TableĀ 226 ā Binding Communication Interface Management services |
456 | TableĀ 227 ā Subslot number for interface submodules |
460 | TableĀ 228 ā Subslot number for port submodules |
465 | TableĀ 229 ā Data elements of Read PDev Data TableĀ 230 ā Data elements of Read PD Real Data |
467 | TableĀ 231 ā Data elements of Read PD Expected Data |
468 | TableĀ 232 ā Data elements of Read PD Interface Data Real |
469 | TableĀ 233 ā Data elements of Write PD Interface Adjust |
470 | TableĀ 234 ā Data elements of Write PD Interface FSU Data Adjust |
471 | TableĀ 235 ā Data elements of Write PD NC Data Check |
472 | TableĀ 236 ā Data elements of Read PD Port Data Real |
473 | TableĀ 237 ā Data elements of Read PD Port Data Real Extended |
474 | TableĀ 238 ā Data elements of Write PD Port Data Check |
476 | TableĀ 239 ā Data elements of Write PD Port Data Adjust |
477 | TableĀ 240 ā Data elements of Read Port FO Data Real |
478 | TableĀ 241 ā Data elements of Write PD Port FO Data Check TableĀ 242 ā Data elements of Write PD Port FO Data Adjust |
479 | TableĀ 243 ā Data elements of Read PD Port Statistic |
482 | TableĀ 244 ā Binding PTCP services |
485 | TableĀ 245 ā Sync Properties Role TableĀ 246 ā Sync Class |
486 | TableĀ 247 ā Data elements of Write PD Sync Data |
488 | TableĀ 248 ā Local Sync State Info |
489 | TableĀ 249 ā Local SYNCH Event |
490 | TableĀ 250 ā Remote primitives issued or received by SYNC_DIAG TableĀ 251 ā Local primitives issued or received by SYNC_DIAG |
491 | FigureĀ 45 ā State transition diagram SYNC_DIAG |
492 | TableĀ 252 ā State table SYNC_DIAG |
493 | TableĀ 253 ā Functions, Macros, Timers and Variables used by SYNC_DIAG |
494 | TableĀ 254 ā Binding MAC Bridge services |
496 | Table 255 ā Distributed Watchdog Factor Table 256 ā Restart Factor For Distributed Watchdog |
497 | Table 257 ā DFP Mode Table 258 ā SFIOCRProperties.DFPRedundantPathLayout Table 259 ā SFCRC16 |
498 | TableĀ 260 ā Data elements of Write PD IR Data |
500 | TableĀ 261 ā Data elements of Write PD IR Subframe Data |
501 | TableĀ 262 ā Binding Media Redundancy services |
503 | TableĀ 263 ā Data elements of Read PD Interface MRP Data Real |
505 | TableĀ 264 ā Data elements of Write PD Interface MRP Data Check |
506 | TableĀ 265 ā Data elements of Write PD Interface MRP Data Adjust |
508 | TableĀ 266 ā Data elements of Read PD Port MRP Data Real TableĀ 267 ā Data elements of Write PD Port MRP Data Adjust |
509 | TableĀ 268 ā Data elements of Read PD Port MRPIC Data Real |
510 | TableĀ 269 ā Data elements of Write PD Port MRPIC Data Check TableĀ 270 ā Data elements of Write PD Port MRPIC Data Adjust |
513 | Figure 46 ā MRP interconnection |
514 | TableĀ 271 ā Binding IEEE 802.1AS services |
516 | TableĀ 272 ā Data elements of Write PD Time Data TableĀ 273 ā List of supported MIBs |
517 | TableĀ 274 ā Cross-referencing of MIB-II objects TableĀ 275 ā Cross-referencing of LLDP-MIB objects TableĀ 276 ā Cross-referencing of LLDP-EXT-PNIO MIB objects |
518 | TableĀ 277 ā Cross-referencing of LLDP-EXT-DOT3 MIB objects TableĀ 278 ā Binding Autoconfiguration Data services |
521 | TableĀ 279 ā Data elements of Read Autoconfiguration Data |
523 | 7.3.4 Diagnosis ASE Figure 47 ā Diagnosis Base Model |
524 | Figure 48 ā Severity classification of fault, maintenance and qualified |
525 | Figure 49 ā Data Base Model |
528 | TableĀ 280 ā Binding Diagnosis services |
534 | TableĀ 281 ā General Data definition for Diagnosis services |
537 | TableĀ 282 ā Local Add Diagnosis Entry |
538 | TableĀ 283 ā Local Remove Diagnosis Entry |
539 | TableĀ 284 ā Local Update Diagnosis Entry |
554 | FigureĀ 50 ā State transition diagram DIAG_DIAG TableĀ 285 ā Remote primitives issued or received by DIAG_DIAG TableĀ 286 ā Local primitives issued or received by DIAG_DIAG |
555 | TableĀ 287 ā State table DIAG_DIAG |
556 | TableĀ 288 ā Functions, Macros, Timers and Variables used by DIAG_DIAG |
557 | TableĀ 289 ā Remote primitives issued or received by DIAG_MR |
558 | FigureĀ 51 ā State transition diagram DIAG_MR TableĀ 290 ā Local primitives issued or received by DIAG_MR |
559 | TableĀ 291 ā State table DIAG_MR TableĀ 292 ā Functions, Macros, Timers and Variables used by DIAG_MR |
561 | FigureĀ 52 ā State transition diagram DIAG_MD TableĀ 293 ā Remote primitives issued or received by DIAG_MD TableĀ 294 ā Local primitives issued or received by DIAG_MD |
562 | TableĀ 295 ā State table DIAG_MD |
563 | TableĀ 296 ā Functions, Macros, Timers and Variables used by the maintenance demanded entry |
564 | TableĀ 297 ā Remote primitives issued or received by DIAG_QUALIFIED TableĀ 298 ā Local primitives issued or received by DIAG_QUALIFIED |
565 | FigureĀ 53 ā State transition diagram DIAG_QUALIFIED |
566 | TableĀ 299 ā State table DIAG_QUALIFIED TableĀ 300 ā Functions, Macros, Timers and Variables used by DIAG_QUALIFIED |
568 | 7.3.5 PE ASE |
569 | Figure 54 ā Architecture |
570 | TableĀ 301 ā Binding PE services |
571 | TableĀ 302 ā Local Add PE Entity |
572 | TableĀ 303 ā Local Remove PE Entity |
573 | TableĀ 304 ā Local Update PE_OperationalMode |
574 | TableĀ 305 ā PE Entity Filter Data definition |
575 | TableĀ 306 ā PE Entity Filter Data definition |
577 | FigureĀ 55 ā State transition diagram PESM TableĀ 307 ā Remote primitives issued or received by PESM TableĀ 308 ā Local primitives issued or received by PESM |
578 | 7.3.6 LogBook ASE TableĀ 309 ā State table PESM TableĀ 310 ā Functions, Macros, Timers and Variables used by PESM |
579 | TableĀ 311 ā Binding LogBook services |
580 | TableĀ 312 ā Data elements of Read LogBook Data |
581 | 7.3.7 RS ASE TableĀ 313 ā Local Create LogBook Entry |
582 | Figure 56 ā Reporting System components |
583 | Figure 57 ā AR / ARSet and Reporting System |
588 | TableĀ 314 ā Binding RS services |
590 | Table 315 ā Immanent observers Table 316 ā Configured observers |
591 | Figure 58 ā Max Scan Delay |
594 | Figure 59 ā RS Incident window |
596 | TableĀ 317 ā Data elements of Local Add RS Event |
597 | TableĀ 318 ā Data elements of RS Get Event TableĀ 319 ā Data elements of RS Ack Event |
598 | TableĀ 320 ā Data elements of RS Adjust Observer |
599 | Figure 60 ā State transition diagram RSOBS Table 321 ā Local primitives issued or received by RSOBS |
601 | Table 322 ā State table RSOBS |
602 | Table 323 ā Functions, Macros, Timers and Variables used by RSOBS |
603 | Figure 61 ā State transition diagram RSBUF Table 324 ā Local primitives issued or received by RSBUF |
604 | Table 325 ā State table RSBUF |
606 | 7.3.8 Time ASE Table 326 ā Functions, Macros, Timers and Variables used by RSBUF |
607 | Table 327 ā Binding Time services |
608 | Table 328 ā Local Get Time |
609 | Figure 62 ā State transition diagram TimeSM Table 329 ā Local primitives issued or received by TimeSM |
610 | Table 330 ā State table TimeSM |
611 | 7.4 Application characteristics 7.4.1 Device ident number 7.4.2 Network topology Table 331 ā Functions, Macros, Timers and Variables used by TimeSM |
612 | FigureĀ 63 ā Example of network topology including slower wireless segments FigureĀ 64 ā Example of media redundancy including wireless segments |
613 | 7.5 Summary of FAL services 7.5.1 IO device TableĀ 332 ā FAL services of the IO device |
614 | 7.5.2 IO controller 7.5.3 IO Supervisor TableĀ 333 ā FAL services of the IO controller |
615 | AnnexĀ A (informative)Device instances FigureĀ A.1 ā Instance model |
617 | AnnexĀ B (informative)Components of an Ethernet interface FigureĀ B.1 ā Scheme of an Ethernet interface |
618 | FigureĀ B.2 ā Scheme of an Ethernet interface with bridging ability |
619 | FigureĀ B.3 ā Scheme of an Ethernet interface with optical ports |
620 | FigureĀ B.4 ā Scheme of an Ethernet interface with bridgingability using radio communication FigureĀ B.5 ā Scheme of an Ethernet interface with radio communication |
621 | AnnexĀ C (informative)Scheme of MAC address assignment FigureĀ C.1 ā Scheme of MAC address assignment |
622 | AnnexĀ D (informative)Measurement of the fast startup time FigureĀ D.1 ā Measurement of the fast startup time |
623 | AnnexĀ E (informative)Dynamic Frame Packing FigureĀ E.1 ā Frame Layout |
624 | FigureĀ E.2 ā Subframe Layout |
625 | FigureĀ E.3 ā End to End FigureĀ E.4 ā Dynamic frame packing |
626 | FigureĀ E.5 ā Dynamic frame packing ā Truncation of outputs FigureĀ E.6 ā Dynamic frame packing ā Outbound Pack |
627 | FigureĀ E.7 ā Dynamic frame packing ā Concatenation of inputs |
628 | FigureĀ E.8 ā Dynamic frame packing ā Inbound Pack |
630 | FigureĀ E.9 ā Dynamic frame packing ā Distributed watchdog FigureĀ E.10 ā Interrelation between IO CR and dynamically packed frame |
631 | AnnexĀ F (informative)Precondition for Diagnosis Table F.1 ā ChannelErrorType |
632 | Table F.2 ā Preconditions ChannelErrorType 0 ā 0xFF Table F.3 ā Preconditions for ChannelErrorType 0x0100 ā 0x7FFF, 0x9000 ā 0x9FFF Table F.4 ā Preconditions for ChannelErrorType āData transmission impossibleā |
633 | Table F.5 ā Preconditions for ChannelErrorType āRemote mismatchā Table F.6 ā Preconditions for ChannelErrorType āMedia redundancy mismatch ā ringā |
634 | Table F.7 ā Preconditions for ChannelErrorType āMedia redundancy mismatch – interconnectionā Table F.8 ā Preconditions for ChannelErrorType āSync mismatchā Table F.9 ā Preconditions for ChannelErrorType āIsochronous mode mismatchā Table F.10 ā Preconditions for ChannelErrorType āMulticast CR mismatchā |
635 | Table F.11 ā Preconditions for ChannelErrorType āFiber optic mismatchā Table F.12 ā Preconditions for ChannelErrorTypeāNetwork component function mismatchā Table F.13 ā Preconditions for ChannelErrorTypeāDynamic Frame Packing function mismatchā Table F.14 ā Preconditions for ChannelErrorTypeāMedia redundancy with planned duplication mismatchā Table F.15 ā Preconditions for ChannelErrorType āMultiple interface mismatchā |
636 | Bibliography |