IEC 61375-1:2007

INTERNATIONAL IEC
STANDARD 61375-1
Second edition
2007-04
Electric railway equipment –
Train bus –
Part 1:
Train communication network
Reference number
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INTERNATIONAL IEC
STANDARD 61375-1
Second edition
2007-04
Electric railway equipment –
Train bus –
Part 1:
Train communication network
PRICE CODE
Commission Electrotechnique Internationale
XH
International Electrotechnical Commission
Международная Электротехническая Комиссия
For price, see current catalogue

– 2 – 61375-1 © IEC:2007(E)
CONTENTS
FOREWORD.13
INTRODUCTION.15

1 General .17
1.1 Scope.17
1.2 Normative references .17
1.3 Terms and definitions .18
1.4 Abbreviations.35
1.5 Conventions .37
1.6 General considerations .43
1.7 Conformance Test .48
2 Real-Time protocols.49
2.1 General .49
2.2 Variables – Services and Protocols .51
2.3 Messages Services and Protocols.72
2.4 Presentation and encoding of transmitted and stored data. 173
3 Multifunction Vehicle Bus .193
3.1 General . 193
3.2 Physical Layer . 195
3.3 Medium-dependent signalling. 229
3.4 Frames and telegrams . 236
3.5 Link Layer Control .242
3.6 Medium allocation. 248
3.7 Mastership transfer.260
3.8 Link Layer Interface . 265
4 Wire Train Bus (WTB) .273
4.1 General . 273
4.2 Physical layer . 275
4.3 Medium-dependent signalling. 296
4.4 Frames and telegrams . 304
4.5 Link Layer Control .308
4.6 Medium allocation. 329
4.7 Inauguration .331
4.8 Link layer interface .380
5 Train Network Management . 393
5.1 General . 393
5.2 Manager, Agents and interfaces. 394
5.3 Managed objects .397
5.4 Services and management messages . 407
5.5 Interface Procedures . 469

Annex A (informative) Tutorial on the TCN architecture . 473
Annex B (normative) Guidelines for conformance testing . 599

Bibliography . 600

61375-1 © IEC:2007(E) – 3 –
Figure 1 – Layering of the TCN.16
Figure 2 – State transition example .42
Figure 3 – Interfaces between equipment .43
Figure 4 – Interfaces between vehicles.43
Figure 5 – Train Bus and Vehicle Bus.44
Figure 6 – TCN configurations.45
Figure 7 – TCN device configuration options.46
Figure 8 – Structure of the Train Communication Network .49
Figure 9 – Real-Time Protocols layering .50
Figure 10 – LPI primitives exchange.54
Figure 11 – Check_Variable .59
Figure 12 – Individual access .63
Figure 13 – Set access.67
Figure 14 – Cluster access.70
Figure 15 – Terminal station.72
Figure 16 – Router station between WTB and MVB.73
Figure 17 – Packet format .75
Figure 18 – Link layer data transmission.77
Figure 19 – Link_Message_Data_Interface (LMI) .78
Figure 20 – Example of MVB Message_Data frame .79
Figure 21 – Example of WTB Message_Data frame.80
Figure 22 – LMI primitives .81
Figure 23 – Network layer on a Node.88
Figure 24 – Encoding of the Network_Address.91
Figure 25 – Building of the addresses in an outbound packet.93
Figure 26 – Network address encoding on the vehicle bus (example MVB).95
Figure 27 – Network address encoding on the train bus (example with WTB) .96
Figure 28 – Transport packet exchange. 102
Figure 29 – Packet formats (transport layer body). 105
Figure 30 – State transition diagram of the MTP . 114
Figure 31 – Time-out SEND_TMO . 118
Figure 32 – Time-out ALIVE_TMO. 118
Figure 33 – Transport interface . 127
Figure 34 – Multicast message with no retransmission. 134
Figure 35 – Short multicast message with no BD packets and no loss. 135
Figure 36 – Exchange with lost packets .136
Figure 37 – Packet formats . 138
Figure 38 – Protocol machine states.139
Figure 39 – Session layer transfer .150
Figure 40 – Session_Header in Call_Message (of type Am_Result). 151
Figure 41 – Application_Messages_Interface. 152
Figure 42 – Encoding of AM_ADDRESS. . 156

– 4 – 61375-1 © IEC:2007(E)
Figure 43 – Reference device and structure of the document. 195
Figure 44 – MVB configuration . 196
Figure 45 – Transceiver interface .199
Figure 46 – Example of ESD segment . 201
Figure 47 – Example of terminator.202
Figure 48 – ESD backplane section (double-line). 204
Figure 49 – ESD connector arrangement . 205
Figure 50 – ESD terminator connector arrangement . 206
Figure 51 – Example of start of frame (ESD) . 207
Figure 52 – End of an ESD frame (both cases) . 208
Figure 53 – EMD medium. 209
Figure 54 – Shielding (single-line segment) . 211
Figure 55 – Single-line device attachment . 212
Figure 56 – Double-line device attachment to EMD. 213
Figure 57 – EMD connectors arrangement. 214
Figure 58 – EMD terminator strapping .
...