M/334 - Interoperability rail system

EN 50343 specifies requirements for the installation of cabling on railway vehicles and within electrical enclosures on railway vehicles, including magnetic levitation trains and trolley buses. This European Standard covers cabling for making electrical connections between items of electrical equipment, including cables, busbars, terminals and plug/socket devices. It does not cover special effect conductors like fibre optic cables or hollow conductors (waveguides). The material selection criteria given here are applicable to cables with copper conductors. This European Standard is not applicable to the following: - special purpose vehicles, such as track-laying machines, ballast cleaners and personnel carriers; - vehicles used for entertainment on fairgrounds; - vehicles used in mining; - electric cars; - funicular railways. As the field of cabling in rolling stock is also dealt with in the cable makers’ standard, references are made to EN 50264 series, EN 50306 series, EN 50382 series and EN 50355. This European Standard applies in conjunction with the relevant product and installation standards. Stricter requirements than those given in this European Standard may be necessary.

EN 50153 defines requirements to be applied in the design and manufacture of electrical installations and equipment to be used on rolling stock to protect persons from electric shocks. This European Standard is applicable to rolling stock of rail transport systems, road transport systems, if they are powered by an external supply (e.g. trolley buses), magnetically levitated transport systems and to the electrical equipment installed in these systems. This European Standard does not apply to: - mine railways in mines, - crane installations, moving platforms and similar transport systems on rails, - funicular railways, - temporary constructions.

EN 50125-1 intends to define environmental conditions within Europe. The scope of this European Standard covers the definitions and ranges of the following parameters: Altitude, temperature, humidity, air movement, rain, snow and hail, ice, solar radiation, lightning, pollution for rolling stock and on-board equipment (mechanical, electromechanical, electrical, electronic). In particular, this European Standard defines interface conditions between the vehicle and its environment. The defined environmental conditions are considered as normal in service. Rolling stock or parts of it can also be used outside the specification with reduced performance. Microclimates surrounding components may be defined by relevant product standards or by special requirements. Passenger effects on the equipment and equipment effects on the passengers are not considered in this European Standard. This European Standard does not apply to cranes, mining vehicles, cable cars. This European Standard also does not apply to natural disaster (e.g. earthquake).

This European Standard retains EN 61984:2001 as the minimum performance requirements for railway rolling stock electrical connectors.
It identifies additional terms, test methods and performance requirements for single-pole and multipole connectors with rated voltages up to 1 000 V, rated currents up to 125 A per contact and frequencies below 3 MHz used for indoor and outdoor applications in railway rolling stock.
This European Standard identifies the application levels for electrical connectors based on
- the severity of the service conditions in different rolling stock technologies,
- the intended use of the rolling stock,
- the location of the connector in the rolling stock system.
This European Standard is not applicable to internal connections of electronic devices such as connectors for printed boards and rack-and-panel connectors.

This European Standard retains EN 61984:2001 as the minimum performance requirements for railway rolling stock electrical connectors. It identifies additional terms, test methods and performance requirements for single-pole and multipole connectors with rated voltages up to 1 000 V, rated currents up to 125 A per contact and frequencies below 3 MHz used for indoor and outdoor applications in railway rolling stock. This European Standard identifies the application levels for electrical connectors based on - the severity of the service conditions in different rolling stock technologies, - the intended use of the rolling stock, - the location of the connector in the rolling stock system. This European Standard is not applicable to internal connections of electronic devices such as connectors for printed boards and rack-and-panel connectors.

Will supersede EN 50126-1:1999 (together with prEN 50126-2:201X (pr=21753), CLC/TR 50126-2:2007 and CLC/TR 50126-3:2008 * In hands of WG 14 * To be offered to IEC to revise IEC 62278 * D138/C125: Extension of the target date for vote approved to read 2013-03-31 * 2012-06-22 - Enquiry editing allocated to aclausse@cencenelec.eu

Will supersede EN 50128:2011 * Full revision and re-organization of EN 50126 series needed to get a full set of standards covering the whole railway system * In hands of WG 14 * To be offered to IEC to revise IEC 62278 * D138/C125: Extension of the target date for vote approved to read 2013-03-31 * 2012-06-29 - Enquiry editing allocated to aclausse@cencenelec.eu

Together with prEN 50126-1:201X (pr=21752), will supersede EN 50126-1:1999 * In hands of WG 14 * D138/C125: Extension of the target date for vote approved to read 2013-03-31 * 2012-06-22 - Enquiry editing allocated to aclausse@cencenelec.eu

Will supersede EN 50129:2003 * Full revision and re-organization of EN 50126 series needed to get a full set of standards covering the whole railway system * In hands of WG 14 * To be offered to IEC to revise IEC 62278 * D138/C125: Extension of the target date for vote approved to read 2013-03-31 * 2012-06-29 - Enquiry editing allocated to aclausse@cencenelec.eu

2014-03 TC Decision: WI to be stopped as draft for vote cannot be delivered on time in the frame of the 3-year timeframe * 2012-06-22 - Enquiry editing allocated to aclausse@cencenelec.eu * D144/C085: Second extension of the target date for vote approved to read 2014-03-05 with transfer in the new audit system

2014-03 TC Decision: WI to be stopped as draft for vote cannot be delivered on time in the frame of the 3-year timeframe * D144/C085: Second extension of the target date for vote approved to read 2014-03-05 with transfer in the new audit system

2014-03 TC Decision: WI to be stopped as draft for vote cannot be delivered on time in the frame of the 3-year timeframe * 2012-06-29 - Enquiry editing allocated to aclausse@cencenelec.eu * D144/C085: Second extension of the target date for vote approved to read 2014-03-05 with transfer in the new audit system

2014-03 TC Decision: WI to be stopped as draft for vote cannot be delivered on time in the frame of the 3-year timeframe * 2012-06-22 - Enquiry editing allocated to aclausse@cencenelec.eu * D144/C085: Second extension of the target date for vote approved to read 2014-03-05 with transfer in the new audit system

This European Standard applies to the on board and on board to ground communication services, i.e. it covers the data communication using digital interfaces:
a) between functions implemented within the EMS;
b) between EMS function and other on board subsystems;
c) between EMS and ground communication services.
The on board data communication services of the EMS are covering the data exchange between functions of the EMS and the data exchange between EMS and other on board units, where data is exchanged using a communications protocol stack over a dedicated physical interface or a shared communication network. The on board to ground communication services are covering the wireless data communication between the DHS and the on ground server. Furthermore, this document includes conformity assessment requirements.

This European Standard covers the requirements applicable to the Energy Measurement Function(EMF) of an Energy Measurement System (EMS) for use on board traction units for measurement of energy supplied directly from/to the Contact Line system. This European Standard also gives requirements for the Current Measurement Function (e.g. current sensor), the Voltage Measurement Function (e.g. voltage sensor) and the Energy Calculation Function (e.g. energy meter). The Conformity Assessment arrangements for the Voltage Measurement Function, Current Measurement Function, the Energy Calculation Function and a complete Energy Measurement Function are also specified in this document. The standard has been developed taking into account that in some applications the EMF may be subjected to legal metrological control. All relevant metrological aspects are covered in this part.

This European Standard covers the requirements applicable to the Data Handling System (DHS) of an Energy Measurement System. This document also includes the basic requirements for the Data Collection Service on ground, relating to the acquisition and storage of Compiled Energy Billing Data. The Conformity Assessment arrangements for the DHS are specified in this document.

This European Standard describes the primary purpose of the EMS, which is to meter energy consumption for billing. The EMS may also be used for other functions such as energy management. This part of EN 50463:
- gives requirements for the complete Energy Measurement System and also requirements for all devices implementing one or more functions of the Energy Measurement System;
- applies to newly manufactured Energy Measurement Systems for use on board railway traction units, powered by a.c. and/or d.c. supply voltages as listed in the EN 50163;
- does not apply to portable Energy Measurement Systems.

This European Standard specifies the conformity assessment arrangements for newly manufactured EMS installed on a traction unit. This includes the integration conformity assessment and installation conformity assessment. In addition, this document also specifies the conformity assessment procedures for device and ancillary component replacement (e.g. due to damage in service), and periodic check to verify the EMS conformity assessment remains valid. This European Standard does not include elements related to conformity assessment aspects other than design review and testing provisions for the products, processes or services specified. Consequently, this part does not delete, change or interpret the general requirements for conformity assessment procedures and vocabulary detailed in EN/ISO/IEC 17000. This European Standard does not cover the conformity assessment schemes that, according to CENELEC Internal Regulations, are the responsibility of ISO policy committee “Committee on conformity assessment” (ISO/CASCO).

This Technical Specification defines, for the purpose of ensuring compatibility between rolling stock and track circuits the limits for conducted interference from rolling stock and the measurement method for verifying conformity of rolling stock to these limits. The interference limits are only applicable to interoperable rolling stock which is intended to run on lines exclusively equipped with preferred track circuit listed in this Technical Specification. National Notified Technical Rules are still to be used in all cases, where the line over which the rolling stock is intended to run is equipped with any type of older version or non-preferred track circuits that are not listed in this Technical Specification. However, the rolling stock test methodology (infrastructure conditions, test configurations, operational conditions, etc.) presented in this Technical Specification is also applicable to establish compatibility with non-preferred track circuits. This Technical Specification gives guidance on the derivation of interference current limits specified for rolling stock and defines measurement methods and evaluation criteria.

This Technical Report defines, in accordance with the ERTMS/ETCS requirements: a) for each DMI function to be exchanged to and from the driver, including ETCS, STM: performances needed; degraded modes recovering; b) DMI Safety targets; c) communication system requirements: real-time capability; performances (bandwidth, etc.); expansion capability; RAMS; applicable standards; degraded modes; degraded modes management; interface with other systems; LCC requirements. Each item in the list above corresponds to one chapter of the present document.

This European Standard defines requirements to be applied in the design and manufacture of electrical installations and equipment to be used on rolling stock to protect persons from electric shocks. This European Standard is applicable to rolling stock of rail transport systems, road transport systems, if they are powered by an external supply (e.g. trolley buses), magnetically levitated transport systems and to the electrical equipment installed in these systems. This European Standard does not apply to: - mine railways in mines, - crane installations, moving platforms and similar transport systems on rails, - funicular railways, temporary constructions.

This European Standard intends to define environmental conditions within Europe. NOTE 1 It can also be applied elsewhere by agreement. The scope of this European Standard covers the definitions and ranges of the following parameters: Altitude, temperature, humidity, air movement, rain, snow and hail, ice, solar radiation, lightning, pollution for rolling stock and on-board equipment (mechanical, electromechanical, electrical, electronic). In particular, this European Standard defines interface conditions between the vehicle and its environment. The defined environmental conditions are considered as normal in service. NOTE 2 Further guidance on severe conditions can be found within prEN 16251. Rolling stock or parts of it can also be used outside the specification with reduced performance. NOTE 3 In these cases, relevant operating rules could be necessary to ensure the technical compatibility between the rolling stock and environmental conditions. Microclimates surrounding components may be defined by relevant product standards or by special requirements. Passenger effects on the equipment and equipment effects on the passengers are not considered in this European Standard. This European Standard does not apply to cranes, mining vehicles, cable cars. This European Standard also does not apply to natural disaster (e.g. earthquake).

This European Standard specifies requirements for the installation of cabling on railway vehicles and within electrical enclosures on railway vehicles, including magnetic levitation trains and trolley buses. NOTE With respect to trolley buses, this European Standard applies to the whole electric traction system, including current collecting circuits, power converters and the respective control circuits. The installation of other circuits is covered by street vehicle standards for example those for combustion driven buses. This European Standard covers cabling for making electrical connections between items of electrical equipment, including cables, busbars, terminals and plug/socket devices. It does not cover special effect conductors like fibre optic cables or hollow conductors (waveguides). The material selection criteria given here are applicable to cables with copper conductors. This European Standard is not applicable to the following: – special purpose vehicles, such as track-laying machines, ballast cleaners and personnel carriers; – vehicles used for entertainment on fairgrounds; – vehicles used in mining; – electric cars; – funicular railways. As the field of cabling in rolling stock is also dealt with in the cable makers’ standard, references are made to EN 50264 series, EN 50306 series, EN 50382 series and EN 50355. This European Standard applies in conjunction with the relevant product and installation standards. Stricter requirements than those given in this European Standard may be necessary.

This Part of EN 45545 specifies the fire safety requirements for electrical equipment on railway vehicles, including that of trolley buses, track guided buses and magnetic levitation vehicles. The measures and requirements, specified in this European Standard meet the objective of protecting passengers and staff in railway vehicles in the event of a fire on board by:  lowering the risk of starting a fire both during operation and as a result of technical defect and/or malfunction of the electrical equipment,  ensuring that electrical emergency equipment continues to be functional until evacuation is complete (see FprEN 45545-6).

This European Standard specifies the conformity assessment arrangements for newly manufactured EMS installed on a traction unit. This includes the integration conformity assessment and installation conformity assessment. In addition, this document also specifies the conformity assessment procedures for device and ancillary component replacement (e.g. due to damage in service), and periodic check to verify the EMS conformity assessment remains valid. This European Standard does not include elements related to conformity assessment aspects other than design review and testing provisions for the products, processes or services specified. Consequently, this part does not delete, change or interpret the general requirements for conformity assessment procedures and vocabulary detailed in EN/ISO/IEC 17000. This European Standard does not cover the conformity assessment schemes that, according to CENELEC Internal Regulations, are the responsibility of ISO policy committee “Committee on conformity assessment” (ISO/CASCO).

This European Standard covers the requirements applicable to the Energy Measurement Function (EMF) of an Energy Measurement System (EMS) for use on board traction units for measurement of energy supplied directly from/to the Contact Line system. This European Standard also gives requirements for the Current Measurement Function (e.g. current sensor), the Voltage Measurement Function (e.g. voltage sensor) and the Energy Calculation Function (e.g. energy meter). The Conformity Assessment arrangements for the Voltage Measurement Function, Current Measurement Function, the Energy Calculation Function and a complete Energy Measurement Function are also specified in this document. The standard has been developed taking into account that in some applications the EMF may be subjected to legal metrological control. All relevant metrological aspects are covered in this part.

This European Standard applies to the on board and on board to ground communication services, i.e. it covers the data communication using digital interfaces: a) between functions implemented within the EMS; b) between EMS function and other on board subsystems; c) between EMS and ground communication services. The on board data communication services of the EMS are covering the data exchange between functions of the EMS and the data exchange between EMS and other on board units, where data is exchanged using a communications protocol stack over a dedicated physical interface or a shared communication network. The on board to ground communication services are covering the wireless data communication between the DHS and the on ground server. Furthermore, this document includes conformity assessment requirements.

This European Standard describes the primary purpose of the EMS, which is to meter energy consumption for billing. The EMS may also be used for other functions such as energy management. This part of EN 50463:  gives requirements for the complete Energy Measurement System and also requirements for all devices implementing one or more functions of the Energy Measurement System;  applies to newly manufactured Energy Measurement Systems for use on board railway traction units, powered by a.c. and/or d.c. supply voltages as listed in the EN 50163;  does not apply to portable Energy Measurement Systems.

This European Standard covers the requirements applicable to the Data Handling System (DHS) of an Energy Measurement System. This document also includes the basic requirements for the Data Collection Service on ground, relating to the acquisition and storage of Compiled Energy Billing Data. The Conformity Assessment arrangements for the DHS are specified in this document.

This Technical Specification defines, for the purpose of ensuring compatibility between rolling stock and track circuits the limits for conducted interference from rolling stock and the measurement method for verifying conformity of rolling stock to these limits. The interference limits are only applicable to interoperable rolling stock which is intended to run on lines exclusively equipped with preferred track circuit listed in this Technical Specification. National Notified Technical Rules are still to be used in all cases, where the line over which the rolling stock is intended to run is equipped with any type of older version or non-preferred track circuits that are not listed in this Technical Specification. However, the rolling stock test methodology (infrastructure conditions, test configurations, operational conditions, etc.) presented in this Technical Specification is also applicable to establish compatibility with non-preferred track circuits. This Technical Specification gives guidance on the derivation of interference current limits specified for rolling stock and defines measurement methods and evaluation criteria. This Technical Specification defines • a set of interference current limits for RST (Rolling Stock) applicable for each of the following types of traction system: - DC (750 V, 1,5 kV and 3 kV); - 16,7 Hz AC; - 50 Hz AC. • methodology for the demonstration of compatibility between rolling stock and track circuits, • measurement method to verify interference current limits and evaluation criteria. NOTE 1 The basic parameters of track circuits associated with the interference current limits for RST are not in the scope of this Technical Specification. NOTE 2 Any phenomena linked to traction power supply and associated protection (over voltage, short-circuit current, under- and over-voltage if regenerative brakes are used) is part of the track circuit design and outside the scope of this Technical Specification.

This Technical Report defines, in accordance with the ERTMS/ETCS requirements: a) for each DMI function to be exchanged to and from the driver, including ETCS, STM: performances needed; degraded modes recovering; b) DMI Safety targets; c) communication system requirements: real-time capability; performances (bandwidth, etc.); expansion capability; RAMS; applicable standards; degraded modes; degraded modes management; interface with other systems; LCC requirements. Each item in the list above corresponds to one chapter of the present document.

The scope of this Technical Report is to define the ERTMS DMI in STM mode for each system include in Annex B of STI CC. This Technical Report defines the ergonomics for the Specific Transmission Module integrated in the Driver-Machine Interface (DMI) for the ERTMS/ETCS Train Control System, and for the integrated ERTMS/GSM-R Train Control and Train Radio Systems. The ergonomics covers the – general arrangements (dialogue structure, sequences, layout philosophy, colour philosophy), – symbols, – audible information, and – data entry arrangements. The reasons for defining the ergonomics of the DMI are as follows: 1. Achieving harmonised and coherent presentation for ERTMS/ETCS and STM information. Given the large number of STM’s requiring the use the ERTMS/ETCS DMI, only a harmonised approach is feasible. 2. Defining Driver-Machine Interface ergonomics that is compatible with agreed interoperable ERTMS specifications. 3. To reduce the risk of incorrect operation by a driver working with different trains fitted with ERTMS/ETCS. 4. Facilitating train operation with a unified ergonomics, hence reducing the cost of driver training. This Technical Report is applicable on all trains fitted with the ERTMS/ETCS.

This Technical Specification describes from an ergonomic point of view how ERTMS information shall be arranged and displayed. This Technical Specification describes more ergonomic details than currently provided by the ERTMS/ETCS/GSM-R specifications. This Technical Specification defines the ergonomics for the Driver-Machine Interface (DMI) for the ERTMS/ETCS Train Control System, and for the integrated ERTMS/GSM-R Train Control and Train Radio Systems, and for the stand alone ERTMS/GSM-R Train Radio Systems and for other technical systems currently provided on the engines. The ergonomics covers – the general arrangements (dialogue structure, sequences, layout philosophy, colour philosophy), – the symbols, – the audible information, – the data entry arrangements. The aims of the ERTMS/ETCS/GSM-R Train Control and Train Radio Systems are standardised systems facilitating interoperable movement of trains and permitting economies of scale in procurement and operations. The objective of this Technical Specification is to define the minimum requirements on the DMI that are necessary to enable these objectives to be achieved. Hence the Technical Specification is limited to ergonomic considerations and does not define the technology to be used for the implementation. The reasons for defining the ergonomics of the DMI are as follows: – achieving harmonised and coherent presentation for ERTMS/ETCS and STM information. Given the large number of STM’s requiring the use the ERTMS/ETCS DMI, only a harmonised approach is feasible; – defining Driver-Machine Interface ergonomics that is compatible with agreed interoperable ERTMS specifications; – to reduce the risk of incorrect operation by a driver working with different trains fitted with ERTMS/ETCS and ERTMS/GSM-R; – facilitating train operation with a unified ergonomics, hence reducing the cost of driver training. This Technical Specification is applicable on all trains fitted with the ERTMS/ETCS and also for trains fitted with train radio (GSM-R) DMI. The scope of this Part 6 of the Technical Specification is to define the audible information used with the ERTMS/ETCS DMI and with the ERTMS/GSM-R DMI. The operational procedures for the GSM-R radio are out of scope of this document.

This Technical Specification describes from an ergonomic point of view how ERTMS information shall be arranged and displayed. This Technical Specification describes more ergonomic details than currently provided by the ERTMS/ETCS/GSM R specifications. This Technical Specification defines the ergonomics for the Driver-Machine Interface (DMI) for the ERTMS/ETCS Train Control System, and for the integrated ERTMS/GSM R Train Control and Train Radio Systems, and for the stand alone ERTMS/GSM R Train Radio Systems and for other technical systems currently provided on the engines. The ergonomics covers the: - general arrangements (dialogue structure, sequences, layout philosophy, colour philosophy); - symbols; - audible information; - data entry arrangements. The aims of the ERTMS/ETCS/GSM R Train Control and Train Radio Systems are standardised systems facilitating interoperable movement of trains and permitting economies of scale in procurement and operations. The objective of this Technical Specification is to define the minimum requirements on the DMI that are necessary to enable these objectives to be achieved. Hence the Technical Specification is limited to ergonomic considerations and does not define the technology to be used for the implementation. The reasons for defining the ergonomics of the DMI are as follows: - achieving harmonised and coherent presentation for ERTMS/ETCS and STM information. Given the large number of STM’s requiring the use the ERTMS/ETCS DMI, only a harmonised approach is feasible. - defining Driver-Machine Interface ergonomics that is compatible with agreed interoperable ERTMS specifications. - to reduce the risk of incorrect operation by a driver working with different trains fitted with ERTMS/ETCS and ERTMS/GSM R. - facilitating train operation with a unified ergonomics, hence reducing the cost of driver training. This Technical Specification is applicable on all trains fitted with the ERTMS/ETCS and also for trains fitted with train radio (GSM R) DMI. The scope of this part of the Technical Specification (Part 5) is to define the symbols used with the ERTMS/ETCS and the ERTMS/GSM R DMI. The actual use of the symbols is depending on the availability of the function addressing the symbol.

This Technical Specification describes from an ergonomic point of view how ERTMS information shall be arranged and displayed. This Technical Specification describes more ergonomic details than currently provided by the ERTMS/ETCS/GSM R specifications. This Technical Specification defines the ergonomics for the Driver-Machine Interface (DMI) for the ERTMS/ETCS Train Control System, and for the integrated ERTMS/GSM R Train Control and Train Radio Systems, and for the stand alone ERTMS/GSM R Train Radio Systems and for other technical systems currently provided on the rolling stock. The ergonomics covers the - general arrangements (dialogue structure, sequences, layout philosophy, colour philosophy), - symbols, - audible information, - data entry arrangements. The aims of the ERTMS/ETCS/GSM R Train Control and Train Radio Systems are standardised systems facilitating interoperable movement of trains and permitting economies of scale in procurement and operations. The objective of this Technical Specification is to define the minimum requirements on the DMI that are necessary to enable these objectives to be achieved. Hence the Technical Specification is limited to ergonomic considerations and does not define the technology to be used for the implementation. The reasons for defining the ergonomics of the DMI are as follows: - achieving harmonised and coherent presentation for ERTMS/ETCS and STM information. Given the large number of STM’s requiring the use the ERTMS/ETCS DMI, only a harmonised approach is feasible; - defining Driver-Machine Interface ergonomics that is compatible with agreed interoperable ERTMS specifications; - to reduce the risk of incorrect operation by a driver working with different trains fitted with ERTMS/ETCS and ERTMS/GSM R; - facilitating train operation with a unified ergonomics, hence reducing the cost of driver training. This Technical Specification is applicable on all trains fitted with the ERTMS/ETCS and also for trains fitted with train radio (GSM R) DMI. The scope of Part 1 of the Technical Specification CLC/TS 50459 series is to define ergonomic principles for the interface between the driver and ERTMS/ETCS/GSM R. This specification gives guidelines how to implement different technology (soft keys, touch screen device, LCD, cathode tube, etc.)

This Technical Specification describes from an ergonomic point of view how ERTMS information shall be arranged and displayed. This Technical Specification describes more ergonomic details than currently provided by the ERTMS/ETCS/GSM-R specifications. This Technical Specification defines the ergonomics for the Driver-Machine Interface (DMI) for the ERTMS/ETCS Train Control System, and for the integrated ERTMS/GSM-R Train Control and Train Radio Systems, and for the stand alone ERTMS/GSM-R Train Radio Systems and for other technical systems currently provided on the engines. The ergonomics covers the - general arrangements (dialogue structure, sequences, layout philosophy, colour philosophy), - symbols, - audible information, - data entry arrangements. The aims of the ERTMS/ETCS/GSM-R Train Control and Train Radio Systems are standardised systems facilitating interoperable movement of trains and permitting economies of scale in procurement and operations. The objective of this Technical Specification is to define the minimum requirements on the DMI that are necessary to enable these objectives to be achieved. Hence the Technical Specification is limited to ergonomic considerations and does not define the technology to be used for the implementation. The reasons for defining the ergonomics of the DMI are as follows: - achieving harmonised and coherent presentation for ERTMS/ETCS and STM information. Given the large number of STM’s requiring the use the ERTMS/ETCS DMI, only a harmonised approach is feasible; - defining Driver-Machine Interface ergonomics that is compatible with agreed interoperable ERTMS specifications; - to reduce the risk of incorrect operation by a driver working with different trains fitted with ERTMS/ETCS and ERTMS/GSM-R; - facilitating train operation with a unified ergonomics, hence reducing the cost of driver training. This Technical Specification is applicable on all trains fitted with the ERTMS/ETCS and also for trains fitted with train radio (GSM-R) DMI. The scope of Part 3 of the Technical Specification CLC/TS 50459 series is to define ergonomic arrangements of ERTMS/GSM-R information only.

This Technical Specification describes from an ergonomic point of view how ERTMS information shall be arranged and displayed. This Technical Specification describes more ergonomic details than currently provided by the ERTMS/ETCS/GSM R specifications. This Technical Specification defines the ergonomics for the Driver-Machine Interface (DMI) for the ERTMS/ETCS Train Control System, and for the integrated ERTMS/GSM R Train Control and Train Radio Systems, and for the stand alone ERTMS/GSM R Train Radio Systems and for other technical systems currently provided on the engines. The ergonomics covers the - general arrangements (dialogue structure, sequences, layout philosophy, colour philosophy), - symbols, - audible information, - data entry arrangements. The aims of the ERTMS/ETCS/GSM R Train Control and Train Radio Systems are standardised systems facilitating interoperable movement of trains and permitting economies of scale in procurement and operations. The objective of this Technical Specification is to define the minimum requirements on the DMI that are necessary to enable these objectives to be achieved. Hence the Technical Specification is limited to ergonomic considerations and does not define the technology to be used for the implementation. The reasons for defining the ergonomics of the DMI are as follows: - achieving harmonised and coherent presentation for ERTMS/ETCS and STM information. Given the large number of STM’s requiring the use the ERTMS/ETCS DMI, only a harmonised approach is feasible; - defining Driver-Machine Interface ergonomics that is compatible with agreed interoperable ERTMS specifications; - to reduce the risk of incorrect operation by a driver working with different trains fitted with ERTMS/ETCS and ERTMS/GSM R; - facilitating train operation with a unified ergonomics, hence reducing the cost of driver training. This Technical Specification is applicable on all trains fitted with the ERTMS/ETCS and also for trains fitted with train radio (GSM R) DMI. The scope of Part 2 of the Technical Specification CLC/TS 50459 series is to define ergonomic arrangements of ERTMS/ETCS information. This specification gives guidelines how to implement different technology (soft keys, touch screen device, LCD, cathode tube, etc.)

This Technical Specification describes from an ergonomic point of view how ERTMS information shall be arranged and displayed. This Technical Specification describes more ergonomic details than currently provided by the ERTMS/ETCS/GSM-R specifications. This Technical Specification defines the ergonomics for the Driver-Machine Interface (DMI) for the ERTMS/ETCS Train Control System, and for the integrated ERTMS/GSM-R Train Control and Train Radio Systems, and for the stand alone ERTMS/GSM-R Train Radio Systems and for other technical systems currently provided on the engines. The ergonomics covers the - general arrangements (dialogue structure, sequences, layout philosophy, colour philosophy), - symbols, - audible information, - data entry arrangements. The aims of the ERTMS/ETCS/GSM-R Train Control and Train Radio Systems are standardised systems facilitating interoperable movement of trains and permitting economies of scale in procurement and operations. The objective of this Technical Specification is to define the minimum requirements on the DMI that are necessary to enable these objectives to be achieved. Hence the Technical Specification is limited to ergonomic considerations and does not define the technology to be used for the implementation. The reasons for defining the ergonomics of the DMI are as follows: - achieving harmonised and coherent presentation for ERTMS/ETCS and STM information. Given the large number of STM’s requiring the use the ERTMS/ETCS DMI, only a harmonised approach is feasible; - defining Driver-Machine Interface ergonomics that is compatible with agreed interoperable ERTMS specifications; - to reduce the risk of incorrect operation by a driver working with different trains fitted with ERTMS/ETCS and ERTMS/GSM-R; - facilitating train operation with a unified ergonomics, hence reducing the cost of driver training. This Technical Specification is applicable on all trains fitted with the ERTMS/ETCS and also for trains fitted with train radio (GSM-R) DMI. The scope of Part 4 of the Technical Specification CLC/TS 50459 series is to define data entry principles for the interface between the driver and ERTMS/ETCS/GSM-R. This specification gives guidelines how to implement different technology (soft keys, touch screen device, LCD, cathode tube, etc.)