BS EN 61375-3-1:2012
$215.11
Electronic railway equipment. Train communication network (TCN) – Multifunction Vehicle Bus (MVB)
| Published By | Publication Date | Number of Pages |
| BSI | 2012 | 134 |
This part of IEC 61375 applies where MVB is required.
PDF Catalog
| PDF Pages | PDF Title |
|---|---|
| 8 | English CONTENTS |
| 14 | INTRODUCTION |
| 15 | Figures FigureĀ 1 ā Reference device and structure of the document |
| 16 | 1 Scope 2 Normative references |
| 17 | 3 Terms and definitions, abbreviations and conventions 3.1 Terms and definitions |
| 34 | 3.2 Abbreviations |
| 35 | 3.3 Conventions 3.3.1 Base of numeric values |
| 36 | 3.3.2 Naming conventions 3.3.3 Time naming conventions 3.3.4 Procedural interface conventions |
| 38 | Tables Table 1 ā Template for the specification of an interface procedure |
| 39 | 3.3.5 Specification of transmitted data TableĀ 2 ā Example of message structure |
| 40 | TableĀ 3 ā Example of textual message form (corresponding to Table 2) |
| 41 | 3.3.6 State diagram conventions FigureĀ 2 ā State transition example Table 4 ā State transitions table |
| 42 | 4 Physical Layer 4.1 Topology 4.1.1 Segments 4.1.2 Couplers |
| 43 | 4.1.3 Double-line segments 4.2 Device classes 4.2.1 Capabilities FigureĀ 3 ā MVB configuration |
| 44 | 4.2.2 Class 0 devices 4.2.3 Class 1 devices 4.2.4 Class 2 devices 4.2.5 Class 3 devices 4.2.6 Class 4 devices 4.2.7 Class 5 devices Table 5 ā MVB devices capabilities |
| 45 | 4.2.8 Device Attachment 4.3 Specifications common to all media 4.3.1 Signalling speed 4.3.2 Propagation delays 4.3.3 Transceiver interface |
| 46 | 4.3.4 Redundant medium (option) FigureĀ 4 ā Transceiver interface |
| 47 | 4.4 ElectricalĀ ShortĀ Distance medium (choice) 4.4.1 ESD topology FigureĀ 5 ā Example of ESD segment |
| 48 | 4.4.2 ESD configuration rules FigureĀ 6 ā Example of terminator |
| 49 | 4.4.3 ESD section specifications 4.4.4 ESD shielding |
| 50 | 4.4.5 ESD medium-dependent interface FigureĀ 7 ā ESD backplane section (double-line) |
| 51 | FigureĀ 8 ā ESD connector arrangement Table 6 ā Pin assignment for the ESD connector |
| 52 | 4.4.6 ESD Line_Unit specifications 4.4.7 ESD signal wave form FigureĀ 9 ā ESD terminator connector arrangement |
| 53 | 4.4.8 ESD transmitter FigureĀ 10 ā Example of start of frame (ESD) |
| 54 | 4.4.9 ESD receiver FigureĀ 11 ā End of an ESD frame (both cases) |
| 55 | 4.5 ElectricalĀ MiddleĀ Distance medium (choice) 4.5.1 EMD topology 4.5.2 EMD configuration rules FigureĀ 12 ā EMD medium |
| 56 | 4.5.3 EMD terminator 4.5.4 Cable section |
| 57 | 4.5.5 EMD shielding FigureĀ 13 ā Shielding (single-line segment) |
| 58 | 4.5.6 EMD medium-dependent interface FigureĀ 14 ā Single-line device attachment |
| 59 | FigureĀ 15 ā Double-line device attachment to EMD |
| 60 | FigureĀ 16 ā EMD connectors arrangement TableĀ 7 ā Pin assignment for the EMD connector |
| 61 | 4.5.7 EMD Line_Unit specifications FigureĀ 17 ā EMD terminator strapping |
| 62 | 4.5.8 EMD signal waveform 4.5.9 EMD transmitter specifications FigureĀ 18 ā Example of start of an EMD frame |
| 64 | FigureĀ 19 ā Example of pulse waveform at EMD transmitter |
| 65 | FigureĀ 20 ā Example of end of EMD frame |
| 66 | 4.5.10 EMD receiver specifications FigureĀ 21 ā EMD receiver test signal |
| 67 | 4.6 OpticalĀ GlassĀ Fibre medium (choice) |
| 68 | 4.6.1 OGF topology 4.6.2 OGF optical cable and fibre 4.6.3 OGF medium-dependent interface FigureĀ 22 ā Optical link |
| 69 | 4.6.4 OGF test signal (guideline) FigureĀ 23 ā Optical connector (dimensions in mm) |
| 70 | 4.6.5 OGF transmitter specifications 4.6.6 OGF receiver specifications FigureĀ 24 ā Example of start of OGF frame |
| 71 | 4.6.7 OGF active star coupler FigureĀ 25 ā Edge jitter FigureĀ 26 ā Example of active star coupler |
| 72 | 4.6.8 OGF double-line layout (option) 5 Medium-dependent signalling 5.1 Frame encoding and decoding 5.1.1 Conventions FigureĀ 27 ā Example of a duplicated star coupler |
| 73 | 5.1.2 Bit encoding 5.1.3 Non-data symbols 5.1.4 StartĀ Bit 5.1.5 StartĀ Delimiter FigureĀ 28 ā “0” and “1” data encoding FigureĀ 29 ā Non_Data symbols encoding |
| 74 | 5.1.6 EndĀ Delimiter FigureĀ 30 ā MasterĀ StartĀ Delimiter FigureĀ 31 ā SlaveĀ StartĀ Delimiter FigureĀ 32 ā Example of EndĀ Delimiter for EMD medium |
| 75 | 5.1.7 Valid frame (definition) 5.1.8 Detection of line idle 5.1.9 Detection of collision 5.1.10 Receiver behaviour in case of error 5.1.11 Jabber halt FigureĀ 33 ā Example of a valid frame (OGF medium) |
| 76 | 5.2 Line redundancy (option) 5.2.1 Principle 5.2.2 Redundant transmission 5.2.3 Redundant reception 5.2.4 Switchover FigureĀ 34 ā Signal skew |
| 77 | 5.2.5 Redundancy status report 5.3 Repeater |
| 78 | 5.3.1 Repeater between single-line segments 5.3.2 Repeater for redundant medium (option) FigureĀ 35 ā Example of repeater for single-line attachment |
| 79 | 6 Frames and telegrams 6.1 Frame format 6.1.1 MasterĀ Frame format 6.1.2 SlaveĀ Frame format FigureĀ 36 ā Example of repeater connecting a double-line to a single line segment FigureĀ 37 ā MasterĀ Frame Format |
| 80 | 6.1.3 CheckĀ Sequence FigureĀ 38 ā SlaveĀ Frames |
| 81 | 6.2 Telegram timing 6.2.1 Conventions 6.2.2 Reply delay (definition) Figure 39 ā Telegram timing |
| 82 | FigureĀ 40 ā Example of Reply delay |
| 83 | 6.2.3 Frame spacing at the source 6.2.4 Frame spacing at the destination FigureĀ 41 ā Frame spacing at the source side FigureĀ 42 ā Frame spacing at the destination(s) |
| 84 | 6.2.5 Frame spacing at the master FigureĀ 43 ā Frame spacing at the master side |
| 85 | 6.3 Detection of correct frames, collision and silence by the master 6.3.1 Correct frame (definition) 6.3.2 Detection of collision by the master 6.3.3 Detection of silence by the master 7 LinkĀ Layer Control 7.1 Addressing 7.1.1 DeviceĀ Address 7.1.2 Logical_Address |
| 86 | 7.1.3 Group_Address 7.2 MasterĀ Frames contents 7.2.1 MasterĀ Frame format 7.2.2 F_code encoding FigureĀ 44 ā MasterĀ Frame contents |
| 87 | 7.3 SlaveĀ Frame contents 7.3.1 SlaveĀ Frame format TableĀ 8 ā MasterĀ Frame types and F_code |
| 88 | 7.3.2 Size error 7.4 Telegram types 7.4.1 ProcessĀ Data telegram FigureĀ 45 ā Word ordering in a SlaveĀ Frame FigureĀ 46 ā ProcessĀ Data telegram |
| 89 | 7.4.2 MessageĀ Data FigureĀ 47 ā MessageĀ Data telegram |
| 90 | 7.4.3 SupervisoryĀ Data telegrams FigureĀ 48 ā SupervisoryĀ Data telegram |
| 91 | 8 Medium allocation 8.1 Organisation 8.1.1 Turn 8.1.2 BasicĀ Period FigureĀ 49 ā BasicĀ Periods |
| 92 | 8.1.3 Padding 8.2 PeriodicĀ Polling 8.2.1 PeriodicĀ List 8.2.2 IndividualĀ Period |
| 93 | 8.2.3 PeriodicĀ Phase construction |
| 94 | 8.3 EventĀ Polling 8.3.1 Group_Address FigureĀ 50 ā Example of construction of the Macro_Cycle |
| 95 | 8.3.2 Event_Round |
| 97 | 8.3.3 Recommended event search algorithm |
| 98 | 8.3.4 SupervisoryĀ Data frames for Event_Arbitration FigureĀ 51 ā General_Event_Request frame format Figure 52 ā Group_Event_Request frame (M = 6, C = ABCDEF) |
| 99 | FigureĀ 53 ā Single_Event_Request frame FigureĀ 54 ā Event_Identifier_Response frame |
| 100 | 8.4 Devices_Scan 8.4.1 Device_Status FigureĀ 55 ā Device_Status_Request FigureĀ 56 ā Device_Status_Response |
| 101 | FigureĀ 57 ā Device_Status of Class 1 device FigureĀ 58 ā Device_Status of Class 2/3/4/5 device FigureĀ 59 ā Device_Status of a device with BusĀ Administrator capability |
| 102 | 8.4.2 Device_Status protocol FigureĀ 60 ā Device_Status of a device with Gateway capability |
| 103 | 8.4.3 Devices_Scan protocol 9 Mastership transfer 9.1 Mastership transfer operation 9.1.1 Bus administrator configuration |
| 104 | 9.2 Mastership transfer specifications 9.2.1 States |
| 106 | FigureĀ 61 ā Mastership Transfer states |
| 107 | 9.2.2 Time-outs for mastership transfer 9.3 SupervisoryĀ data frames for mastership transfer 9.3.1 Device_Status telegram FigureĀ 62 ā Device_Status_Request (sent by current master) FigureĀ 63 ā Device_Status_Response (sent by proposed master) |
| 108 | 9.3.2 Mastership transfer telegram 10 Link Layer Interface 10.1 LinkĀ Layer layering FigureĀ 64 ā Mastership_Transfer_Request (sent by current master) FigureĀ 65 ā Mastership_Transfer_Response (sent by proposed next master) |
| 109 | 10.2 Link ProcessĀ Data interface 10.3 Link MessageĀ Data interface 10.3.1 General FigureĀ 66 ā Link Layer Layering |
| 110 | 10.3.2 Priority 10.3.3 Packet size 10.3.4 Protocol_Type 10.3.5 Message Transport Protocol 10.4 LinkĀ SupervisionĀ Interface 10.4.1 General 10.4.2 LinkĀ SupervisionĀ Interface procedures |
| 111 | 10.4.3 MVB_Status 10.4.4 MVB_Control Table 9 ā LS_RESULT encoding Table 10 ā MVB_Status object |
| 112 | 10.4.5 MVB_Devices 10.4.6 MVB_Administrator Table 11 ā MVB_Control object Table 12 ā MVB_Devices object |
| 113 | Table 13 ā MVB_Administrator object |
| 114 | 10.4.7 MVB_Report |
| 115 | 11 Real-Time Protocols 12 Gateway Function 13 Network Management 13.1 Contents of this clause 13.2 MVB Managed objects 13.2.1 MVB link objects Table 14 ā LS_V_REPORT encoding |
| 116 | 13.3 MVB Services and management messages 13.3.1 MVB link services |
| 127 | TableĀ 15 ā Example of mvb_administrator_list |
| 130 | Bibliography |
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BS EN 61375-3-1:2012
Electronic railway equipment. Train communication network (TCN) – Multifunction Vehicle Bus (MVB) Published By Publicationā¦
