1.3.2.1 Address of organisation, street and number:
Poligono Industrial del Mediterráneo. Mitjera 6
1.3.2.2 Town:
Albuixech (Valencia)
1.3.2.3 Country code:
ES
1.3.2.4 Post code:
46550
1.3.2.5 E-mail address:
Registration Method:
New Variant of a registered Type Directive 2008/57/EC
Registered Vehicle Type:
11-075-0003-3-001
1.4 Category:
Traction vehicles
1.5 Subcategory:
Locomotive
Platform:
EuroDual
Section 2: Conformity with TSI
2.1 Conformity with TSI and Sections not complied with:
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
CCS TSI (Regulation (EU) N° 2016/919) amended by Reg.(EU)2019/776 amended by Reg.(EU)2020/387
LOC & PAS (Regulation (EU) No 1302/2014) amended by Reg.(EU)2016/919 amended by Reg.(EU)2018/868 amended by Reg.(EU) 2019/776 amended by Reg.(EU) 2020/387)
Noise (Regulation (EU) No 1304/2014 amended by Regulation (EU) 2019/774)
SRT (Regulation (EU) No 1303/2014) amended by Reg.(EU) 2016/912) amended by Reg.(EU) 2019/776
1435mm / AC 15kV-16.7Hz / PZB 90
CCS TSI (Regulation (EU) N° 2016/919) amended by Reg.(EU)2019/776 amended by Reg.(EU)2020/387
LOC & PAS (Regulation (EU) No 1302/2014) amended by Reg.(EU)2016/919 amended by Reg.(EU)2018/868 amended by Reg.(EU) 2019/776 amended by Reg.(EU) 2020/387)
Noise (Regulation (EU) No 1304/2014 amended by Regulation (EU) 2019/774)
SRT (Regulation (EU) No 1303/2014) amended by Reg.(EU) 2016/912) amended by Reg.(EU) 2019/776
CCS TSI (Regulation (EU) N° 2016/919) amended by Reg.(EU)2019/776 amended by Reg.(EU)2020/387
LOC & PAS (Regulation (EU) No 1302/2014) amended by Reg.(EU)2016/919 amended by Reg.(EU)2018/868 amended by Reg.(EU) 2019/776 amended by Reg.(EU) 2020/387)
Noise (Regulation (EU) No 1304/2014 amended by Regulation (EU) 2019/774)
SRT (Regulation (EU) No 1303/2014) amended by Reg.(EU) 2016/912) amended by Reg.(EU) 2019/776
1435mm / Autonomous / PZB 90
CCS TSI (Regulation (EU) N° 2016/919) amended by Reg.(EU)2019/776 amended by Reg.(EU)2020/387
LOC & PAS (Regulation (EU) No 1302/2014) amended by Reg.(EU)2016/919 amended by Reg.(EU)2018/868 amended by Reg.(EU) 2019/776 amended by Reg.(EU) 2020/387)
Noise (Regulation (EU) No 1304/2014 amended by Regulation (EU) 2019/774)
SRT (Regulation (EU) No 1303/2014) amended by Reg.(EU) 2016/912) amended by Reg.(EU) 2019/776
2.3 Applicable specific cases (specific cases conformity with which has been assessed)
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
CCS TSI (Regulation (EU) N° 2016/919) amended by Reg.(EU)2019/776 amended by Reg.(EU)2020/387 LOC & PAS (Regulation (EU) No 1302/2014) amended by Reg.(EU)2016/919 amended by Reg.(EU)2018/868 amended by Reg.(EU) 2019/776 amended by Reg.(EU) 2020/387) Noise (Regulation (EU) No 1304/2014 amended by Regulation (EU) 2019/774) SRT (Regulation (EU) No 1303/2014) amended by Reg.(EU) 2016/912) amended by Reg.(EU) 2019/776
1435mm / AC 15kV-16.7Hz / PZB 90
CCS TSI (Regulation (EU) N° 2016/919) amended by Reg.(EU)2019/776 amended by Reg.(EU)2020/387 LOC & PAS (Regulation (EU) No 1302/2014) amended by Reg.(EU)2016/919 amended by Reg.(EU)2018/868 amended by Reg.(EU) 2019/776 amended by Reg.(EU) 2020/387) Noise (Regulation (EU) No 1304/2014 amended by Regulation (EU) 2019/774) SRT (Regulation (EU) No 1303/2014) amended by Reg.(EU) 2016/912) amended by Reg.(EU) 2019/776
CCS TSI (Regulation (EU) N° 2016/919) amended by Reg.(EU)2019/776 amended by Reg.(EU)2020/387 LOC & PAS (Regulation (EU) No 1302/2014) amended by Reg.(EU)2016/919 amended by Reg.(EU)2018/868 amended by Reg.(EU) 2019/776 amended by Reg.(EU) 2020/387) Noise (Regulation (EU) No 1304/2014 amended by Regulation (EU) 2019/774) SRT (Regulation (EU) No 1303/2014) amended by Reg.(EU) 2016/912) amended by Reg.(EU) 2019/776
1435mm / Autonomous / PZB 90
CCS TSI (Regulation (EU) N° 2016/919) amended by Reg.(EU)2019/776 amended by Reg.(EU)2020/387 LOC & PAS (Regulation (EU) No 1302/2014) amended by Reg.(EU)2016/919 amended by Reg.(EU)2018/868 amended by Reg.(EU) 2019/776 amended by Reg.(EU) 2020/387) Noise (Regulation (EU) No 1304/2014 amended by Regulation (EU) 2019/774) SRT (Regulation (EU) No 1303/2014) amended by Reg.(EU) 2016/912) amended by Reg.(EU) 2019/776
2.2 Reference of ‘EC type examination certificates’
EC certificate of verification : Reference of ‘EC type examination certificates’ (if module SB applied) and/or ‘EC design examination certificates’ (if module SH1 applied)
CCS: 2593/2/SH1/2023/CCO/EN/9646-0522/V01
EC certificate of verification : Reference of ‘EC type examination certificates’ (if module SB applied) and/or ‘EC design examination certificates’ (if module SH1 applied)
RST: 2836/1/SB/2023/RST/EN/0208/V02
Section 3: Authorisations
European Union
3.0 Area Of Use:
DE(Germany)
3.1 Authorisation in
3.1.1 Member state of authorisation:
Germany(DE)
3.1.2 Current status
3.1.2.1 Status:
Valid
3.1.2.2 Validity of Authorisation (until):
2026-03-13
3.1.2.3 Coded conditions for use and other restrictions:
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
1 Technical restriction related to construction
1.1 Minimum curve radius in meters: 122
1.3 Speed restrictions in Km/h: 120 km/h in DE
1.4 Use in multiple operation (maximum number of trainsets authorised to be coupled together to operate as a single train): 1
2 Geographical restriction
2.1 Kinematic gauge (coding WAG TSI): G1, GI2
2.2 Wheelset gauge: 2.2.4 Gauge 1435
2.4 ERTMS on board: 2.4.1 ETCS
2.4 ERTMS on board: 2.4.2 GSM-R voice
2.4 ERTMS on board: 2.4.3 GSM-R for ETCS
2.5 B System on board
2.5.1 Class B signalling system: 2.5.156 PZB 90
3 Environmental restrictions
3.1 Climatic zone: 3.1.1 T1 1435mm / AC 15kV-16.7Hz / PZB 90
1 Technical restriction related to construction
1.1 Minimum curve radius in meters: 122
1.3 Speed restrictions in Km/h: 120 km/h in DE
1.4 Use in multiple operation (maximum number of trainsets authorised to be coupled together to operate as a single train): 1
2 Geographical restriction
2.1 Kinematic gauge (coding WAG TSI): G1, GI2
2.2 Wheelset gauge: 2.2.4 Gauge 1435
2.4 ERTMS on board: 2.4.1 ETCS
2.4 ERTMS on board: 2.4.2 GSM-R voice
2.4 ERTMS on board: 2.4.3 GSM-R for ETCS
2.5 B System on board
2.5.1 Class B signalling system: 2.5.156 PZB 90
3 Environmental restrictions
3.1 Climatic zone: 3.1.1 T1 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
1 Technical restriction related to construction
1.1 Minimum curve radius in meters: 122
1.3 Speed restrictions in Km/h: 120 km/h in DE
1.4 Use in multiple operation (maximum number of trainsets authorised to be coupled together to operate as a single train): 1
2 Geographical restriction
2.1 Kinematic gauge (coding WAG TSI): G1, GI2
2.2 Wheelset gauge: 2.2.4 Gauge 1435
2.4 ERTMS on board: 2.4.1 ETCS
2.4 ERTMS on board: 2.4.2 GSM-R voice
2.4 ERTMS on board: 2.4.3 GSM-R for ETCS
2.5 B System on board
2.5.1 Class B signalling system: 2.5.156 PZB 90
3 Environmental restrictions
3.1 Climatic zone: 3.1.1 T1 1435mm / Autonomous / PZB 90
1 Technical restriction related to construction
1.1 Minimum curve radius in meters: 122
1.3 Speed restrictions in Km/h: 120 km/h in DE
1.4 Use in multiple operation (maximum number of trainsets authorised to be coupled together to operate as a single train): 1
2 Geographical restriction
2.1 Kinematic gauge (coding WAG TSI): G1, GI2
2.2 Wheelset gauge: 2.2.4 Gauge 1435
2.4 ERTMS on board: 2.4.1 ETCS
2.4 ERTMS on board: 2.4.2 GSM-R voice
2.4 ERTMS on board: 2.4.3 GSM-R for ETCS
2.5 B System on board
2.5.1 Class B signalling system: 2.5.156 PZB 90
3 Environmental restrictions
3.1 Climatic zone: 3.1.1 T1
3.1.2.4 Non-coded conditions for use and other restrictions:
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
RST
• In accordance with LOC & PAS TSI Clause 4.2.3.6 E25/15/3/1.5 2D9.5 D-A-CH-I BE-NL has been assessed for a minimum curve radius of 150m • In accordance with LOC & PAS TSI Clause 4.1.3 (6), the EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation with a maximum speed of 120 km/h • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has not been assessed for operation in multiple formation • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for compliance with G1 gauge as per EN15273-2 2013. Static reference profile GI2 has been applied for the lower parts • In accordance with LOC & PAS TSI Section 4.2.6.1, EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation in the following environmental conditions: Temperature - EN 50125-1:2014 Clause 4.3 : climatic zone T1. • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed as being fitted with a ‘Train Recording Unit New Generation (TRU NG)’ recording device. The data recorded by the on-board data recorder is documented in the clause by-clause checklist for LOC&PAS TSI (see section 3.2.2 regarding the use of EN62625). • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation with a maximum cant deficiency of 130mm (as defined in EN14363) • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation on the European Union railway system. Specific cases have been considered for Germany, Östereich, Switzerland, Italy, Belgium and the Netherlands • The drawgear loads must not exceed 1350kN when using the screw coupling. See LOC & PAS TSI Section 4.2.2.2.3 • In accordance with LOC & PAS TSI Clause 4.1.3, EURODUAL E25/15/3/1.5 2D9.5 DA-CH-I-BE-NL has been assessed as a: o “Freight locomotive: Unit designed to haul freight wagons” o “Unit that can be operated as a train” • In accordance with LOC & PAS TSI Clause 4.1.4, EURODUAL E25/15/3/1.5 2D9.5 DA-CH-I-BE-NL has been classified as “freight locomotive” for fire safety • In accordance with LOC & PAS TSI Section 4.2.6.1, EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation in the following environmental conditions: - Snow, Ice and hail - EN 50125-1:2014 Clause 4.7 : class S1 • Certain items of locomotive equipment are expected to be protected against contact through restriction of access to skilled and/or instructed persons as defined in EN50153:2002. The train operator must ensure that access to the locomotive is restricted to persons who are ‘skilled and/or instructed’ in regard to electrical hazards and safety • The train operator must implement the following operating conditions (These are derived from analysis of the safety requirements of the LOC & PAS TSI Section 4.2.4.2.2 (2) from the EURODUAL E15/25 D28 GE): - The driver must confirm that there are no indicated faults in brake control equipment (e.g. brake control relays) during daily pre-departure tests. - The driver must confirm that direct pneumatic venting of the brake pipe occurs when the emergency plunger is depressed, and when the indirect brake handle is moved to the emergency brake position. This must be undertaken each operating day in each operating cab. (This can be done by listening to confirm the venting occurs under the cab desk). - The driver must fully apply (i.e. full service or emergency) the indirect service brake (auto air brake) prior to applying the parking brake via the cab push button. Before leaving the loco, the driver must check the parking brake has been applied (using both the indication in the driver cab, and on the outside of the loco). If there is any doubt, then the parking brake is to be applied using the B03.01 valve on the brake rack, and then the parking brake application rechecked by the driver • EN62625 checklist is no longer required since this has been covered by LOC & PAS TSI Clauses 4.2.9.6 (1), (3), (4), (5), (6) & (7) (see Section 6.2.1 for the LOC & PAS TSI Checklist and section 5.3.) • LOC & PAS TSI SA08 Sections 6.2.3.20 (1), (2), (3), (4), (5) & 6.2.3.21 (1), are only valid for Germany, Austria, Switzerland, Netherlands and Belgium (D-A CH-BE-NL). Italy is no longer valid for these clauses due to outstanding test evidence in relation to Pantograph 3, therefore authorisation for Italy is not covered in this NoBo file. • ERA_ERTMS_033281 Sections 3.2.2.4, 3.2.2.5 & 3.2.2.6 have been transferred to the DeBo for assessment against the relevant NNTRs.
RST GERMANY:
• The vehicles are to be operated in Germany on the standard-gauge railroad system under the jurisdiction of the Federal Railway Authority • Operational requirements from the EURODUAL E15-25 D28 GE 01 approval for FG01 remain valid • Verification area FG01 Driving safety and dynamics: Maintenance requirements from the approval of EURODUAL E15-25 D28 GE 01 for the FG01 remain valid: A special wheel profile that is not described in DIN EN 13715 is used for the locomotive. A wear development on the German route network is not known. For this reason, it is necessary to examine the direction in which the wheel profile develops. It is therefore necessary to carry out random wheel profile monitoring with the start of operation of the first locomotives (at least 2 locomotives over a mileage of approx. 150,000 km or until the equivalent conicity has stabilized) in order to be able to identify deviating developments from a contact geometric point of view. • Detection area FG06 Brakes: When setting the high dynamic braking force, in order to maintain the limit of adhesion utilization, at least a trailer load of 40 t is required. • Verification area FG19 Signaling systems: The Maintenance Manual must be taken into account during maintenance activities • Operation in double or multiple traction is not permitted • Verification area FG01 Driving safety and dynamics: Application restrictions from the approval of EURODUAL E15-25 D28 GE 01 for the FG01 remain valid • Verification area FG06 Braking Operation on steep sections is not permitted • Verification area FG12 EMC: The presence of persons in the engine room of the vehicle is only permitted when the vehicle is stationary and is prohibited during travel. Operation of the vehicle with electrical connection to the overhead line is only permitted in single traction.
CCS GERMANY:
• If required, the "Operational test protocol for the proof of the LZB/PZB/GNT driving data registration conforming to the specifications and the practical suitability of the evaluation program - Edition B0-F, 19.05.2017" must be implemented downstream of the approval of the vehicle • The User Manual [NW-017] must be observed for operation • The Maintenance Manual [NW-029] must be taken into account during maintenance activities • For integration of MESA®26 with Software BASE 02.01 on vehicle level the items according to /GUIDE_TSI_CCS/, page 111, Table 1 have to be checked • The applicant defines compatibility conditions and other restrictions in /IC_Stat_RSC_DE_01_V/ which refer to /Ass_RSC_DE_01_V/. Related content can be found in /Ass_RSC_DE_01_V/, sections 1.1.5.1 and 1.2. The content is not relevant for RSC-DE-01-V, but relevant for integration, operation and maintenance of MESA®26 with Software BASE 02.01.
CCS ICs:
• IC1&2: Radio infill: not implemented • IC1&2: Interfaces G and K are not supported • IC1&2: Train Integrity Function onboard for ERTMS Level 3 not implemented • IC1&2: ERA CR 0595: safety for braking curves: not applicable for this project • IC1&2: Communication session establishment when entering/exiting SL mode • IC1&2: The DMI Deuta 2x8” supports only customisable DMI for LZB/PZB according to subset035-v3.1.0 §13.1.1.3. • IC1&2: The DMI Deuta 2x8” doesn’t support the show and hide of the planning area information according to §8.3.9 of ERA-ERTMS-015560 V3.4.0 (Set #2 of specification) which has been cancelled within V3.6.0 of ERA-ERTMS-015560 V3.6.0 (Set # 3 of specification) • IC1&2: A balise telegram decoding error at Eurobalise protocol level is equivalent to a missed balise • IC1&2: No text message displayed on DMI with Packet 254 on duplicated balise, as defined in subset-026. The goal of this message is simply to warn the driver about a trackside defect with a goal of maintenance so the impact is minor. • IC1&2: STM display is not supported by DMI DEUTA 2x8 • IC4: Functional enhancement by software must not affect the fulfilement of the requirements of [TSI CCS 2020] and thus the result of the EC conformity assessment • IC4: Modification of the software by patches (e. g. failure corrections) must not have an influence to the fulfillment of the requirements of [TSI CCS 2020] and on the result of the conformity assessment and need to be reported to and evaluated by a notify body • IC4: Uncomplete implementation of requirements concerning arbitration due to inconsistencies within the applicable requirements specifications EIRENE SRS 16.0.0) • IC5: Typical operation: ground-train data transmission for use within ERTMS/ETCS equipment on-board of railway vehicles, according to the EURORADIO Standard • IC5: Ground installations: private GSM-R networks operating within the UIC frequency band
RADIO GSM-R MESA 26:
Limits of use: 1-The requirements of [GSM-R SRS], according to the call arbitration table in § 5A.1.1 were realized as far as possible. Full implementation of the requirements is not technically possible according to an evaluation in the validation re port [45], because the arbitration tables of [GSM-R SRS] itself are faulty. The following requirements could therefore not be met: •During an existing connection to the controller, an incoming VGC/VBC with priority 3 shall place the existing connection to status hold and the incoming call shall be connected. • During an existing driver-conference with the controller, an incoming VGC/VBC with priority 3 shall place the existing connection to status hold and the incoming call shall be connected. • During an existing connection to the conductor via GSM, an incoming VGC/VBC with priority 3 shall place the existing connection to status hold and the incoming call shall be connected. • During an existing PtP call with priority 4 via GSM an incoming VGC/VBC with priority 4 shall place the existing connection to status hold and the incoming call shall be connected. Correction is planned for the next revision of the [GSM-R SRS]. The ERA CR 5039 (Change Request) was "approved" by the ERA CCM process and is for the next revision of the [GSM-R SRS] intended for implementation. The change request has already been taken into account for MESA 26. For the table § 5A.1.1 see the notes in the following table row. See below, at the end of this chapter, the extract out of the MO and MT-tables, the entries marked with C (1) and PC (2). 2-The requirements of [GSM-R SRS] § 5A.1.1 are not completely fulfilled: This affects incoming calls during an ongoing call (MT). Subsequently the behavior of the MESA 26 is described. The short descriptor PC (2) corresponds to the entries of the table in the Compliance Call Arbitration Matrix. An extract out of the table is attached at the end of this chapter. • MT-table PC (2): During an ongoing PA call (not via radio link), an incoming VGC or VBC with pri ority 4 is passed forward to the cabin loudspeaker, instead of just signaling the incoming call. • MT- table PC (2): During an ongoing Intercom call (not via radio link), an incoming VGC or VBC with priority 4 is passed forward to the cabin loudspeaker, instead of just signaling the incoming call. PC (2) is a standardization of behavior: coming VGC and VBC P3 and P4 calls are directed to the loudspeaker. There is no distinction between P3 and P4, because this would be difficult to understand for the user of the system. Rating: The deviations are systematic, they follow a concept and are comprehensibly to the user. They represent product-specific solutions, that compensates contradictions of the [GSM-R SRS]. The primary rules for displacement in order to push high priority calls for example emergency calls are not affected by the deviations. The deviations are documented as a product characteristic in the List of Compliance to EIRENE SRS [17].
CCS:
• It is forbidden to drive in level STM SCMT, STM TBL1+ and level STM ATB • In Alstom implementation, no brake application occurs in case a balise signal level is detected, but no telegram can be decoded (which can be interpreted as a deviation to Subset-026 §3.16.2.5.1 point b). This implementation avoids the spurious brake application in case of noise coming from the trackside, which could erroneously be detected as a balise signal. The behaviour of the system in case no telegram can be decoded is identical to the case of a missed balise • Baseline 1.2.10 uses the generic EVC from IC1 (ERTMS/ETCS on-board) version TRB 6.10.2 • T&C procedure planned to perform test to demonstrate that ETCS on-board subsystem can read an infill loop. However the test case was not specified and thus the test was not be done during T&C. Procedure has to be updated for project using Euroloop functionality • the cybersecurity is not treated in this project as the IC1&2 version 6.10.2 has been assessed on the EN50129:2003.
NSA DE (EBA) condition for use:
Sofern gefordert, muss das "Betriebserprobungsprotokoll zum Nachweis der lastenheft- konformen ZB/PZB/GNT Fahrdatenregistrierung und der Praxistauglichkeit des Auswerteprogramms – Ausgabe B0-F, 19.05.2017" nachgelagert zur Genehmigung des Fahrzeugs umgesetzt werden. Bei positiver Erfüllung ist keine neue Genehmigung zu erlangen.
Required corrective actions from assessment done by ERA and NSAs with time limitation following Regulation 2018/545 Article 46 6):
After checking and assessing, it is requested to align the on-board behavior for the exit from Sleeping mode with the TSI CCS SUBSET-026 v3.4.0 §4.4.6.1.10 b) within a period of 3 years after this type authorisation delivery date. 1435mm / AC 15kV-16.7Hz / PZB 90
Same than those applicable for 1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
Same than those applicable for 1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2 1435mm / Autonomous / PZB 90
Same than those applicable for 1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
3.1.3 Historical
3.1.3.1 Αuthorisation
3.1.3.1.1 Date of the original authorisation:
2023-03-13
3.1.3.4.2 Date of the last modification:
2023-05-10
3.1.3.4.3 Authorisation holder
3.1.3.4.3.1 Authorisation holder identification data
3.1.3.4.3.1.1 Name of organisation:
Stadler Rail Valencia S.A.U.
3.1.3.4.3.1.2 Registered business number:
ESA97516058
3.1.3.4.3.1.3 Organisation code:
P0AV
3.1.3.4.3.2 Authorisation holder contact data
3.1.3.4.3.2.1 Address of organisation, street and number:
Stadler Rail Valencia S.A.U. Pol. Ind. del Mediterráneo. Mitjera 6
This parameter contains the European Identification Number (EIN) of the issued vehicle type authorisation. Therefore, this parameter should only contain an EIN with no other text. For example: ES8020190005
EU8020230037
3.1.3.4.5 Certificate of verification : Reference of type examination or design examination type:
3.1.3.4.6 Parameters for which conformity to applicable national rules has been assessed:
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
3.3 Bogies / running gear
3.3.1 Bogies
3.3.2 Wheelset (complete)
3.3.3 Wheel
3.3.4 Wheel/rail interaction influencing systems
3.3.5 Sanding system
3.3.6 Bearings on the wheelset
3.3.7 Axle shaft
3.3.8 Axle bearing condition monitoring
4.4 Brake command
4.4.1 Emergency braking command
4.4.2 Service braking command
4.4.3 Direct braking command
4.4.4 Dynamic braking command
4.4.5 Parking braking command
4.5 Brake performance
4.5.1 Emergency braking performance
4.5.2 Service braking performance
4.5.3 Calculations related to thermal capacity
4.5.4 Parking brake performance
4.5.5 Brake performance calculation
4.6 Braking adhesion management
4.6.1 Limit of wheel rail adhesion profile
4.6.2 Wheel slide protection system (“WSP”)
8.4 Electromagnetic Compatibility ("EMC")
8.4.1 EMC within the vehicle
8.4.2 EMC between the vehicle and the railway system
8.4.2.1 Maximum currents
8.4.2.1.1 Rail return current
8.4.2.1.2 Heating cable interference current
8.4.2.1.3 Interference current under the vehicle
8.4.2.1.4 Harmonic characteristics and related overvoltages on the overhead contact line
8.4.2.1.5 Effects of DC content in AC supply
8.4.2.2 Maximum electro-magnetic fields/Induced voltages
8.4.2.2.1 Electro-magnetic fields/Induced voltages in the track/under the vehicle
8.4.2.2.2 Electro-magnetic fields/Induced voltages outside the track
8.4.2.3 Vehicle entrance impedance
8.4.2.4 Psophometric current
8.4.2.5 Transverse voltage limits for compatibility voice/data circuits
8.4.3 EMC between the vehicle and the environment
8.4.3.1 Maximum electro-magnetic fields
8.4.3.2 Induced interference current/voltage
8.4.3.3 Psophometric current
8.5 Protection against electrical hazards
8.6 Diesel and other thermal traction system requirements
12.1 On-board radio system
12.1.1 Non-GSM-R radio system
12.1.2 GSM-R compliant radio system
12.1.2.1 Use of hand portables as cab mobile radio
12.1.2.2 Other GSM-R requirements
12.2 On-board signalling
12.2.1 National on-board signalling systems
12.2.2 STM requirements
12.2.3 Transitions
12.2.4 Compatibility of rolling stock with CCS Trackside
12.2.4.1 Minimum axle distance
12.2.4.2 Minimum wheel diameter
12.2.4.3 Metal and inductive components-free space between wheels
12.2.4.4 Metal mass of a vehicle
12.2.4.5 Compatibility with fixed installations of CCS
12.2.5 ETCS cab signalling system
12.2.5.1 Level crossing functionality
12.2.5.2 Braking safety margins
12.2.5.3 Reliability - availability requirements
12.2.5.4 Safety requirements
12.2.5.5 Ergonomic aspects of DMI
12.2.5.6 Interface with service brake
12.2.5.7 Other ETCS requirements (related to existing not interoperable networks)
12.2.5.8 Specification of condition of use where ETCS on-board does not implement all functions, interfaces and performances 1435mm / AC 15kV-16.7Hz / PZB 90
3.3 Bogies / running gear
3.3.1 Bogies
3.3.2 Wheelset (complete)
3.3.3 Wheel
3.3.4 Wheel/rail interaction influencing systems
3.3.5 Sanding system
3.3.6 Bearings on the wheelset
3.3.7 Axle shaft
3.3.8 Axle bearing condition monitoring
4.4 Brake command
4.4.1 Emergency braking command
4.4.2 Service braking command
4.4.3 Direct braking command
4.4.4 Dynamic braking command
4.4.5 Parking braking command
4.5 Brake performance
4.5.1 Emergency braking performance
4.5.2 Service braking performance
4.5.3 Calculations related to thermal capacity
4.5.4 Parking brake performance
4.5.5 Brake performance calculation
4.6 Braking adhesion management
4.6.1 Limit of wheel rail adhesion profile
4.6.2 Wheel slide protection system (“WSP”)
8.4 Electromagnetic Compatibility ("EMC")
8.4.1 EMC within the vehicle
8.4.2 EMC between the vehicle and the railway system
8.4.2.1 Maximum currents
8.4.2.1.1 Rail return current
8.4.2.1.2 Heating cable interference current
8.4.2.1.3 Interference current under the vehicle
8.4.2.1.4 Harmonic characteristics and related overvoltages on the overhead contact line
8.4.2.1.5 Effects of DC content in AC supply
8.4.2.2 Maximum electro-magnetic fields/Induced voltages
8.4.2.2.1 Electro-magnetic fields/Induced voltages in the track/under the vehicle
8.4.2.2.2 Electro-magnetic fields/Induced voltages outside the track
8.4.2.3 Vehicle entrance impedance
8.4.2.4 Psophometric current
8.4.2.5 Transverse voltage limits for compatibility voice/data circuits
8.4.3 EMC between the vehicle and the environment
8.4.3.1 Maximum electro-magnetic fields
8.4.3.2 Induced interference current/voltage
8.4.3.3 Psophometric current
8.5 Protection against electrical hazards
8.6 Diesel and other thermal traction system requirements
12.1 On-board radio system
12.1.1 Non-GSM-R radio system
12.1.2 GSM-R compliant radio system
12.1.2.1 Use of hand portables as cab mobile radio
12.1.2.2 Other GSM-R requirements
12.2 On-board signalling
12.2.1 National on-board signalling systems
12.2.2 STM requirements
12.2.3 Transitions
12.2.4 Compatibility of rolling stock with CCS Trackside
12.2.4.1 Minimum axle distance
12.2.4.2 Minimum wheel diameter
12.2.4.3 Metal and inductive components-free space between wheels
12.2.4.4 Metal mass of a vehicle
12.2.4.5 Compatibility with fixed installations of CCS
12.2.5 ETCS cab signalling system
12.2.5.1 Level crossing functionality
12.2.5.2 Braking safety margins
12.2.5.3 Reliability - availability requirements
12.2.5.4 Safety requirements
12.2.5.5 Ergonomic aspects of DMI
12.2.5.6 Interface with service brake
12.2.5.7 Other ETCS requirements (related to existing not interoperable networks)
12.2.5.8 Specification of condition of use where ETCS on-board does not implement all functions, interfaces and performances 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
3.3 Bogies / running gear
3.3.1 Bogies
3.3.2 Wheelset (complete)
3.3.3 Wheel
3.3.4 Wheel/rail interaction influencing systems
3.3.5 Sanding system
3.3.6 Bearings on the wheelset
3.3.7 Axle shaft
3.3.8 Axle bearing condition monitoring
4.4 Brake command
4.4.1 Emergency braking command
4.4.2 Service braking command
4.4.3 Direct braking command
4.4.4 Dynamic braking command
4.4.5 Parking braking command
4.5 Brake performance
4.5.1 Emergency braking performance
4.5.2 Service braking performance
4.5.3 Calculations related to thermal capacity
4.5.4 Parking brake performance
4.5.5 Brake performance calculation
4.6 Braking adhesion management
4.6.1 Limit of wheel rail adhesion profile
4.6.2 Wheel slide protection system (“WSP”)
8.4 Electromagnetic Compatibility ("EMC")
8.4.1 EMC within the vehicle
8.4.2 EMC between the vehicle and the railway system
8.4.2.1 Maximum currents
8.4.2.1.1 Rail return current
8.4.2.1.2 Heating cable interference current
8.4.2.1.3 Interference current under the vehicle
8.4.2.1.4 Harmonic characteristics and related overvoltages on the overhead contact line
8.4.2.1.5 Effects of DC content in AC supply
8.4.2.2 Maximum electro-magnetic fields/Induced voltages
8.4.2.2.1 Electro-magnetic fields/Induced voltages in the track/under the vehicle
8.4.2.2.2 Electro-magnetic fields/Induced voltages outside the track
8.4.2.3 Vehicle entrance impedance
8.4.2.4 Psophometric current
8.4.2.5 Transverse voltage limits for compatibility voice/data circuits
8.4.3 EMC between the vehicle and the environment
8.4.3.1 Maximum electro-magnetic fields
8.4.3.2 Induced interference current/voltage
8.4.3.3 Psophometric current
8.5 Protection against electrical hazards
8.6 Diesel and other thermal traction system requirements
12.1 On-board radio system
12.1.1 Non-GSM-R radio system
12.1.2 GSM-R compliant radio system
12.1.2.1 Use of hand portables as cab mobile radio
12.1.2.2 Other GSM-R requirements
12.2 On-board signalling
12.2.1 National on-board signalling systems
12.2.2 STM requirements
12.2.3 Transitions
12.2.4 Compatibility of rolling stock with CCS Trackside
12.2.4.1 Minimum axle distance
12.2.4.2 Minimum wheel diameter
12.2.4.3 Metal and inductive components-free space between wheels
12.2.4.4 Metal mass of a vehicle
12.2.4.5 Compatibility with fixed installations of CCS
12.2.5 ETCS cab signalling system
12.2.5.1 Level crossing functionality
12.2.5.2 Braking safety margins
12.2.5.3 Reliability - availability requirements
12.2.5.4 Safety requirements
12.2.5.5 Ergonomic aspects of DMI
12.2.5.6 Interface with service brake
12.2.5.7 Other ETCS requirements (related to existing not interoperable networks)
12.2.5.8 Specification of condition of use where ETCS on-board does not implement all functions, interfaces and performances 1435mm / Autonomous / PZB 90
3.3 Bogies / running gear
3.3.1 Bogies
3.3.2 Wheelset (complete)
3.3.3 Wheel
3.3.4 Wheel/rail interaction influencing systems
3.3.5 Sanding system
3.3.6 Bearings on the wheelset
3.3.7 Axle shaft
3.3.8 Axle bearing condition monitoring
4.4 Brake command
4.4.1 Emergency braking command
4.4.2 Service braking command
4.4.3 Direct braking command
4.4.4 Dynamic braking command
4.4.5 Parking braking command
4.5 Brake performance
4.5.1 Emergency braking performance
4.5.2 Service braking performance
4.5.3 Calculations related to thermal capacity
4.5.4 Parking brake performance
4.5.5 Brake performance calculation
4.6 Braking adhesion management
4.6.1 Limit of wheel rail adhesion profile
4.6.2 Wheel slide protection system (“WSP”)
8.4 Electromagnetic Compatibility ("EMC")
8.4.1 EMC within the vehicle
8.4.2 EMC between the vehicle and the railway system
8.4.2.1 Maximum currents
8.4.2.1.1 Rail return current
8.4.2.1.2 Heating cable interference current
8.4.2.1.3 Interference current under the vehicle
8.4.2.1.4 Harmonic characteristics and related overvoltages on the overhead contact line
8.4.2.1.5 Effects of DC content in AC supply
8.4.2.2 Maximum electro-magnetic fields/Induced voltages
8.4.2.2.1 Electro-magnetic fields/Induced voltages in the track/under the vehicle
8.4.2.2.2 Electro-magnetic fields/Induced voltages outside the track
8.4.2.3 Vehicle entrance impedance
8.4.2.4 Psophometric current
8.4.2.5 Transverse voltage limits for compatibility voice/data circuits
8.4.3 EMC between the vehicle and the environment
8.4.3.1 Maximum electro-magnetic fields
8.4.3.2 Induced interference current/voltage
8.4.3.3 Psophometric current
8.5 Protection against electrical hazards
8.6 Diesel and other thermal traction system requirements
12.1 On-board radio system
12.1.1 Non-GSM-R radio system
12.1.2 GSM-R compliant radio system
12.1.2.1 Use of hand portables as cab mobile radio
12.1.2.2 Other GSM-R requirements
12.2 On-board signalling
12.2.1 National on-board signalling systems
12.2.2 STM requirements
12.2.3 Transitions
12.2.4 Compatibility of rolling stock with CCS Trackside
12.2.4.1 Minimum axle distance
12.2.4.2 Minimum wheel diameter
12.2.4.3 Metal and inductive components-free space between wheels
12.2.4.4 Metal mass of a vehicle
12.2.4.5 Compatibility with fixed installations of CCS
12.2.5 ETCS cab signalling system
12.2.5.1 Level crossing functionality
12.2.5.2 Braking safety margins
12.2.5.3 Reliability - availability requirements
12.2.5.4 Safety requirements
12.2.5.5 Ergonomic aspects of DMI
12.2.5.6 Interface with service brake
12.2.5.7 Other ETCS requirements (related to existing not interoperable networks)
12.2.5.8 Specification of condition of use where ETCS on-board does not implement all functions, interfaces and performances
3.1.3.4.7 Comments:
This locomotive is also authorised in AT under type version 11-075-0003-3-001-002
3.1.3.4.8 Reference to the written declaration by the proposer referred to in Article 3(11) of Regulation (EU) 402/2013:
BB19307000337_C0_Declaration on CSM_EN_DE_signed
3.1.3.1 Initial Registration
3.1.2.2 Validity of Authorisation (until):
2026-03-13
3.1.2.3 Coded conditions for use and other restrictions:
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
1 Technical restriction related to construction
1.1 Minimum curve radius in meters: 122
1.3 Speed restrictions in Km/h: 120 km/h in DE
1.4 Use in multiple operation (maximum number of trainsets authorised to be coupled together to operate as a single train): 1
2 Geographical restriction
2.1 Kinematic gauge (coding WAG TSI): G1, GI2
2.2 Wheelset gauge: 2.2.4 Gauge 1435
2.4 ERTMS on board: 2.4.1 ETCS
2.4 ERTMS on board: 2.4.2 GSM-R voice
2.4 ERTMS on board: 2.4.3 GSM-R for ETCS
2.5 B System on board
2.5.1 Class B signalling system: 2.5.156 PZB 90
3 Environmental restrictions
3.1 Climatic zone: 3.1.1 T1 1435mm / AC 15kV-16.7Hz / PZB 90
1 Technical restriction related to construction
1.1 Minimum curve radius in meters: 122
1.3 Speed restrictions in Km/h: 120 km/h in DE
1.4 Use in multiple operation (maximum number of trainsets authorised to be coupled together to operate as a single train): 1
2 Geographical restriction
2.1 Kinematic gauge (coding WAG TSI): G1, GI2
2.2 Wheelset gauge: 2.2.4 Gauge 1435
2.4 ERTMS on board: 2.4.1 ETCS
2.4 ERTMS on board: 2.4.2 GSM-R voice
2.4 ERTMS on board: 2.4.3 GSM-R for ETCS
2.5 B System on board
2.5.1 Class B signalling system: 2.5.156 PZB 90
3 Environmental restrictions
3.1 Climatic zone: 3.1.1 T1 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
1 Technical restriction related to construction
1.1 Minimum curve radius in meters: 122
1.3 Speed restrictions in Km/h: 120 km/h in DE
1.4 Use in multiple operation (maximum number of trainsets authorised to be coupled together to operate as a single train): 1
2 Geographical restriction
2.1 Kinematic gauge (coding WAG TSI): G1, GI2
2.2 Wheelset gauge: 2.2.4 Gauge 1435
2.4 ERTMS on board: 2.4.1 ETCS
2.4 ERTMS on board: 2.4.2 GSM-R voice
2.4 ERTMS on board: 2.4.3 GSM-R for ETCS
2.5 B System on board
2.5.1 Class B signalling system: 2.5.156 PZB 90
3 Environmental restrictions
3.1 Climatic zone: 3.1.1 T1 1435mm / Autonomous / PZB 90
1 Technical restriction related to construction
1.1 Minimum curve radius in meters: 122
1.3 Speed restrictions in Km/h: 120 km/h in DE
1.4 Use in multiple operation (maximum number of trainsets authorised to be coupled together to operate as a single train): 1
2 Geographical restriction
2.1 Kinematic gauge (coding WAG TSI): G1, GI2
2.2 Wheelset gauge: 2.2.4 Gauge 1435
2.4 ERTMS on board: 2.4.1 ETCS
2.4 ERTMS on board: 2.4.2 GSM-R voice
2.4 ERTMS on board: 2.4.3 GSM-R for ETCS
2.5 B System on board
2.5.1 Class B signalling system: 2.5.156 PZB 90
3 Environmental restrictions
3.1 Climatic zone: 3.1.1 T1
3.1.2.4 Non-coded conditions for use and other restrictions:
1435mm / AC 15kV-16.7Hz / PZB 90
Same than those applicable for 1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
Same than those applicable for 1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2 1435mm / Autonomous / PZB 90
Same than those applicable for 1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2 1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
RST
• In accordance with LOC & PAS TSI Clause 4.2.3.6 E25/15/3/1.5 2D9.5 D-A-CH-I BE-NL has been assessed for a minimum curve radius of 150m • In accordance with LOC & PAS TSI Clause 4.1.3 (6), the EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation with a maximum speed of 120 km/h • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has not been assessed for operation in multiple formation • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for compliance with G1 gauge as per EN15273-2 2013. Static reference profile GI2 has been applied for the lower parts • In accordance with LOC & PAS TSI Section 4.2.6.1, EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation in the following environmental conditions: Temperature - EN 50125-1:2014 Clause 4.3 : climatic zone T1. • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed as being fitted with a ‘Train Recording Unit New Generation (TRU NG)’ recording device. The data recorded by the on-board data recorder is documented in the clause by-clause checklist for LOC&PAS TSI (see section 3.2.2 regarding the use of EN62625). • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation with a maximum cant deficiency of 130mm (as defined in EN14363) • EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation on the European Union railway system. Specific cases have been considered for Germany, Östereich, Switzerland, Italy, Belgium and the Netherlands • The drawgear loads must not exceed 1350kN when using the screw coupling. See LOC & PAS TSI Section 4.2.2.2.3 • In accordance with LOC & PAS TSI Clause 4.1.3, EURODUAL E25/15/3/1.5 2D9.5 DA-CH-I-BE-NL has been assessed as a: o “Freight locomotive: Unit designed to haul freight wagons” o “Unit that can be operated as a train” • In accordance with LOC & PAS TSI Clause 4.1.4, EURODUAL E25/15/3/1.5 2D9.5 DA-CH-I-BE-NL has been classified as “freight locomotive” for fire safety • In accordance with LOC & PAS TSI Section 4.2.6.1, EURODUAL E25/15/3/1.5 2D9.5 D-A-CH-I-BE-NL has been assessed for operation in the following environmental conditions: - Snow, Ice and hail - EN 50125-1:2014 Clause 4.7 : class S1 • Certain items of locomotive equipment are expected to be protected against contact through restriction of access to skilled and/or instructed persons as defined in EN50153:2002. The train operator must ensure that access to the locomotive is restricted to persons who are ‘skilled and/or instructed’ in regard to electrical hazards and safety • The train operator must implement the following operating conditions (These are derived from analysis of the safety requirements of the LOC & PAS TSI Section 4.2.4.2.2 (2) from the EURODUAL E15/25 D28 GE): - The driver must confirm that there are no indicated faults in brake control equipment (e.g. brake control relays) during daily pre-departure tests. - The driver must confirm that direct pneumatic venting of the brake pipe occurs when the emergency plunger is depressed, and when the indirect brake handle is moved to the emergency brake position. This must be undertaken each operating day in each operating cab. (This can be done by listening to confirm the venting occurs under the cab desk). - The driver must fully apply (i.e. full service or emergency) the indirect service brake (auto air brake) prior to applying the parking brake via the cab push button. Before leaving the loco, the driver must check the parking brake has been applied (using both the indication in the driver cab, and on the outside of the loco). If there is any doubt, then the parking brake is to be applied using the B03.01 valve on the brake rack, and then the parking brake application rechecked by the driver • EN62625 checklist is no longer required since this has been covered by LOC & PAS TSI Clauses 4.2.9.6 (1), (3), (4), (5), (6) & (7) (see Section 6.2.1 for the LOC & PAS TSI Checklist and section 5.3.) • LOC & PAS TSI SA08 Sections 6.2.3.20 (1), (2), (3), (4), (5) & 6.2.3.21 (1), are only valid for Germany, Austria, Switzerland, Netherlands and Belgium (D-A CH-BE-NL). Italy is no longer valid for these clauses due to outstanding test evidence in relation to Pantograph 3, therefore authorisation for Italy is not covered in this NoBo file. • ERA_ERTMS_033281 Sections 3.2.2.4, 3.2.2.5 & 3.2.2.6 have been transferred to the DeBo for assessment against the relevant NNTRs.
RST GERMANY:
• The vehicles are to be operated in Germany on the standard-gauge railroad system under the jurisdiction of the Federal Railway Authority • Operational requirements from the EURODUAL E15-25 D28 GE 01 approval for FG01 remain valid • Verification area FG01 Driving safety and dynamics: Maintenance requirements from the approval of EURODUAL E15-25 D28 GE 01 for the FG01 remain valid: A special wheel profile that is not described in DIN EN 13715 is used for the locomotive. A wear development on the German route network is not known. For this reason, it is necessary to examine the direction in which the wheel profile develops. It is therefore necessary to carry out random wheel profile monitoring with the start of operation of the first locomotives (at least 2 locomotives over a mileage of approx. 150,000 km or until the equivalent conicity has stabilized) in order to be able to identify deviating developments from a contact geometric point of view. • Detection area FG06 Brakes: When setting the high dynamic braking force, in order to maintain the limit of adhesion utilization, at least a trailer load of 40 t is required. • Verification area FG19 Signaling systems: The Maintenance Manual must be taken into account during maintenance activities • Operation in double or multiple traction is not permitted • Verification area FG01 Driving safety and dynamics: Application restrictions from the approval of EURODUAL E15-25 D28 GE 01 for the FG01 remain valid • Verification area FG06 Braking Operation on steep sections is not permitted • Verification area FG12 EMC: The presence of persons in the engine room of the vehicle is only permitted when the vehicle is stationary and is prohibited during travel. Operation of the vehicle with electrical connection to the overhead line is only permitted in single traction.
CCS GERMANY:
• If required, the "Operational test protocol for the proof of the LZB/PZB/GNT driving data registration conforming to the specifications and the practical suitability of the evaluation program - Edition B0-F, 19.05.2017" must be implemented downstream of the approval of the vehicle • The User Manual [NW-017] must be observed for operation • The Maintenance Manual [NW-029] must be taken into account during maintenance activities • For integration of MESA®26 with Software BASE 02.01 on vehicle level the items according to /GUIDE_TSI_CCS/, page 111, Table 1 have to be checked • The applicant defines compatibility conditions and other restrictions in /IC_Stat_RSC_DE_01_V/ which refer to /Ass_RSC_DE_01_V/. Related content can be found in /Ass_RSC_DE_01_V/, sections 1.1.5.1 and 1.2. The content is not relevant for RSC-DE-01-V, but relevant for integration, operation and maintenance of MESA®26 with Software BASE 02.01.
CCS ICs:
• IC1&2: Radio infill: not implemented • IC1&2: Interfaces G and K are not supported • IC1&2: Train Integrity Function onboard for ERTMS Level 3 not implemented • IC1&2: ERA CR 0595: safety for braking curves: not applicable for this project • IC1&2: Communication session establishment when entering/exiting SL mode • IC1&2: The DMI Deuta 2x8” supports only customisable DMI for LZB/PZB according to subset035-v3.1.0 §13.1.1.3. • IC1&2: The DMI Deuta 2x8” doesn’t support the show and hide of the planning area information according to §8.3.9 of ERA-ERTMS-015560 V3.4.0 (Set #2 of specification) which has been cancelled within V3.6.0 of ERA-ERTMS-015560 V3.6.0 (Set # 3 of specification) • IC1&2: A balise telegram decoding error at Eurobalise protocol level is equivalent to a missed balise • IC1&2: No text message displayed on DMI with Packet 254 on duplicated balise, as defined in subset-026. The goal of this message is simply to warn the driver about a trackside defect with a goal of maintenance so the impact is minor. • IC1&2: STM display is not supported by DMI DEUTA 2x8 • IC4: Functional enhancement by software must not affect the fulfilement of the requirements of [TSI CCS 2020] and thus the result of the EC conformity assessment • IC4: Modification of the software by patches (e. g. failure corrections) must not have an influence to the fulfillment of the requirements of [TSI CCS 2020] and on the result of the conformity assessment and need to be reported to and evaluated by a notify body • IC4: Uncomplete implementation of requirements concerning arbitration due to inconsistencies within the applicable requirements specifications EIRENE SRS 16.0.0) • IC5: Typical operation: ground-train data transmission for use within ERTMS/ETCS equipment on-board of railway vehicles, according to the EURORADIO Standard • IC5: Ground installations: private GSM-R networks operating within the UIC frequency band
RADIO GSM-R MESA 26:
Limits of use: 1-The requirements of [GSM-R SRS], according to the call arbitration table in § 5A.1.1 were realized as far as possible. Full implementation of the requirements is not technically possible according to an evaluation in the validation re port [45], because the arbitration tables of [GSM-R SRS] itself are faulty. The following requirements could therefore not be met: •During an existing connection to the controller, an incoming VGC/VBC with priority 3 shall place the existing connection to status hold and the incoming call shall be connected. • During an existing driver-conference with the controller, an incoming VGC/VBC with priority 3 shall place the existing connection to status hold and the incoming call shall be connected. • During an existing connection to the conductor via GSM, an incoming VGC/VBC with priority 3 shall place the existing connection to status hold and the incoming call shall be connected. • During an existing PtP call with priority 4 via GSM an incoming VGC/VBC with priority 4 shall place the existing connection to status hold and the incoming call shall be connected. Correction is planned for the next revision of the [GSM-R SRS]. The ERA CR 5039 (Change Request) was "approved" by the ERA CCM process and is for the next revision of the [GSM-R SRS] intended for implementation. The change request has already been taken into account for MESA 26. For the table § 5A.1.1 see the notes in the following table row. See below, at the end of this chapter, the extract out of the MO and MT-tables, the entries marked with C (1) and PC (2). 2-The requirements of [GSM-R SRS] § 5A.1.1 are not completely fulfilled: This affects incoming calls during an ongoing call (MT). Subsequently the behavior of the MESA 26 is described. The short descriptor PC (2) corresponds to the entries of the table in the Compliance Call Arbitration Matrix. An extract out of the table is attached at the end of this chapter. • MT-table PC (2): During an ongoing PA call (not via radio link), an incoming VGC or VBC with pri ority 4 is passed forward to the cabin loudspeaker, instead of just signaling the incoming call. • MT- table PC (2): During an ongoing Intercom call (not via radio link), an incoming VGC or VBC with priority 4 is passed forward to the cabin loudspeaker, instead of just signaling the incoming call. PC (2) is a standardization of behavior: coming VGC and VBC P3 and P4 calls are directed to the loudspeaker. There is no distinction between P3 and P4, because this would be difficult to understand for the user of the system. Rating: The deviations are systematic, they follow a concept and are comprehensibly to the user. They represent product-specific solutions, that compensates contradictions of the [GSM-R SRS]. The primary rules for displacement in order to push high priority calls for example emergency calls are not affected by the deviations. The deviations are documented as a product characteristic in the List of Compliance to EIRENE SRS [17].
CCS:
• It is forbidden to drive in level STM SCMT, STM TBL1+ and level STM ATB • In Alstom implementation, no brake application occurs in case a balise signal level is detected, but no telegram can be decoded (which can be interpreted as a deviation to Subset-026 §3.16.2.5.1 point b). This implementation avoids the spurious brake application in case of noise coming from the trackside, which could erroneously be detected as a balise signal. The behaviour of the system in case no telegram can be decoded is identical to the case of a missed balise • Baseline 1.2.10 uses the generic EVC from IC1 (ERTMS/ETCS on-board) version TRB 6.10.2 • T&C procedure planned to perform test to demonstrate that ETCS on-board subsystem can read an infill loop. However the test case was not specified and thus the test was not be done during T&C. Procedure has to be updated for project using Euroloop functionality • the cybersecurity is not treated in this project as the IC1&2 version 6.10.2 has been assessed on the EN50129:2003.
NSA DE (EBA) condition for use:
Sofern gefordert, muss das "Betriebserprobungsprotokoll zum Nachweis der lastenheft- konformen ZB/PZB/GNT Fahrdatenregistrierung und der Praxistauglichkeit des Auswerteprogramms – Ausgabe B0-F, 19.05.2017" nachgelagert zur Genehmigung des Fahrzeugs umgesetzt werden. Bei positiver Erfüllung ist keine neue Genehmigung zu erlangen.
Required corrective actions from assessment done by ERA and NSAs with time limitation following Regulation 2018/545 Article 46 6):
After checking and assessing, it is requested to align the on-board behavior for the exit from Sleeping mode with the TSI CCS SUBSET-026 v3.4.0 §4.4.6.1.10 b) within a period of 3 years after this type authorisation delivery date.
3.1.3.1.1 Date of the original authorisation:
2023-03-13
3.1.3.1.2 Authorisation holder
3.1.3.1.2.1 Authorisation holder identification data
3.1.3.1.2.1.1 Name of organisation:
Stadler Rail Valencia S.A.U.
3.1.3.1.2.1.2 Registered business number:
ESA97516058
3.1.3.1.2.1.3 Organisation code:
P0AV
3.1.3.1.2.2 Authorisation holder contact data
3.1.3.1.2.2.1 Address of organisation, street and number:
Stadler Rail Valencia S.A.U. Pol. Ind. del Mediterráneo. Mitjera 6
This parameter contains the European Identification Number (EIN) of the issued vehicle type authorisation. Therefore, this parameter should only contain an EIN with no other text. For example: ES8020190005
EU8020230037
3.1.3.1.4 Certificate of verification : Reference of type examination or design examination type:
3.1.3.1.5 Parameters for which conformity to applicable national rules has been assessed:
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
3.3 Bogies / running gear
3.3.1 Bogies
3.3.2 Wheelset (complete)
3.3.3 Wheel
3.3.4 Wheel/rail interaction influencing systems
3.3.5 Sanding system
3.3.6 Bearings on the wheelset
3.3.7 Axle shaft
3.3.8 Axle bearing condition monitoring
4.4 Brake command
4.4.1 Emergency braking command
4.4.2 Service braking command
4.4.3 Direct braking command
4.4.4 Dynamic braking command
4.4.5 Parking braking command
4.5 Brake performance
4.5.1 Emergency braking performance
4.5.2 Service braking performance
4.5.3 Calculations related to thermal capacity
4.5.4 Parking brake performance
4.5.5 Brake performance calculation
4.6 Braking adhesion management
4.6.1 Limit of wheel rail adhesion profile
4.6.2 Wheel slide protection system (“WSP”)
8.4 Electromagnetic Compatibility ("EMC")
8.4.1 EMC within the vehicle
8.4.2 EMC between the vehicle and the railway system
8.4.2.1 Maximum currents
8.4.2.1.1 Rail return current
8.4.2.1.2 Heating cable interference current
8.4.2.1.3 Interference current under the vehicle
8.4.2.1.4 Harmonic characteristics and related overvoltages on the overhead contact line
8.4.2.1.5 Effects of DC content in AC supply
8.4.2.2 Maximum electro-magnetic fields/Induced voltages
8.4.2.2.1 Electro-magnetic fields/Induced voltages in the track/under the vehicle
8.4.2.2.2 Electro-magnetic fields/Induced voltages outside the track
8.4.2.3 Vehicle entrance impedance
8.4.2.4 Psophometric current
8.4.2.5 Transverse voltage limits for compatibility voice/data circuits
8.4.3 EMC between the vehicle and the environment
8.4.3.1 Maximum electro-magnetic fields
8.4.3.2 Induced interference current/voltage
8.4.3.3 Psophometric current
8.5 Protection against electrical hazards
8.6 Diesel and other thermal traction system requirements
12.1 On-board radio system
12.1.1 Non-GSM-R radio system
12.1.2 GSM-R compliant radio system
12.1.2.1 Use of hand portables as cab mobile radio
12.1.2.2 Other GSM-R requirements
12.2 On-board signalling
12.2.1 National on-board signalling systems
12.2.2 STM requirements
12.2.3 Transitions
12.2.4 Compatibility of rolling stock with CCS Trackside
12.2.4.1 Minimum axle distance
12.2.4.2 Minimum wheel diameter
12.2.4.3 Metal and inductive components-free space between wheels
12.2.4.4 Metal mass of a vehicle
12.2.4.5 Compatibility with fixed installations of CCS
12.2.5 ETCS cab signalling system
12.2.5.1 Level crossing functionality
12.2.5.2 Braking safety margins
12.2.5.3 Reliability - availability requirements
12.2.5.4 Safety requirements
12.2.5.5 Ergonomic aspects of DMI
12.2.5.6 Interface with service brake
12.2.5.7 Other ETCS requirements (related to existing not interoperable networks)
12.2.5.8 Specification of condition of use where ETCS on-board does not implement all functions, interfaces and performances 1435mm / AC 15kV-16.7Hz / PZB 90
3.3 Bogies / running gear
3.3.1 Bogies
3.3.2 Wheelset (complete)
3.3.3 Wheel
3.3.4 Wheel/rail interaction influencing systems
3.3.5 Sanding system
3.3.6 Bearings on the wheelset
3.3.7 Axle shaft
3.3.8 Axle bearing condition monitoring
4.4 Brake command
4.4.1 Emergency braking command
4.4.2 Service braking command
4.4.3 Direct braking command
4.4.4 Dynamic braking command
4.4.5 Parking braking command
4.5 Brake performance
4.5.1 Emergency braking performance
4.5.2 Service braking performance
4.5.3 Calculations related to thermal capacity
4.5.4 Parking brake performance
4.5.5 Brake performance calculation
4.6 Braking adhesion management
4.6.1 Limit of wheel rail adhesion profile
4.6.2 Wheel slide protection system (“WSP”)
8.4 Electromagnetic Compatibility ("EMC")
8.4.1 EMC within the vehicle
8.4.2 EMC between the vehicle and the railway system
8.4.2.1 Maximum currents
8.4.2.1.1 Rail return current
8.4.2.1.2 Heating cable interference current
8.4.2.1.3 Interference current under the vehicle
8.4.2.1.4 Harmonic characteristics and related overvoltages on the overhead contact line
8.4.2.1.5 Effects of DC content in AC supply
8.4.2.2 Maximum electro-magnetic fields/Induced voltages
8.4.2.2.1 Electro-magnetic fields/Induced voltages in the track/under the vehicle
8.4.2.2.2 Electro-magnetic fields/Induced voltages outside the track
8.4.2.3 Vehicle entrance impedance
8.4.2.4 Psophometric current
8.4.2.5 Transverse voltage limits for compatibility voice/data circuits
8.4.3 EMC between the vehicle and the environment
8.4.3.1 Maximum electro-magnetic fields
8.4.3.2 Induced interference current/voltage
8.4.3.3 Psophometric current
8.5 Protection against electrical hazards
8.6 Diesel and other thermal traction system requirements
12.1 On-board radio system
12.1.1 Non-GSM-R radio system
12.1.2 GSM-R compliant radio system
12.1.2.1 Use of hand portables as cab mobile radio
12.1.2.2 Other GSM-R requirements
12.2 On-board signalling
12.2.1 National on-board signalling systems
12.2.2 STM requirements
12.2.3 Transitions
12.2.4 Compatibility of rolling stock with CCS Trackside
12.2.4.1 Minimum axle distance
12.2.4.2 Minimum wheel diameter
12.2.4.3 Metal and inductive components-free space between wheels
12.2.4.4 Metal mass of a vehicle
12.2.4.5 Compatibility with fixed installations of CCS
12.2.5 ETCS cab signalling system
12.2.5.1 Level crossing functionality
12.2.5.2 Braking safety margins
12.2.5.3 Reliability - availability requirements
12.2.5.4 Safety requirements
12.2.5.5 Ergonomic aspects of DMI
12.2.5.6 Interface with service brake
12.2.5.7 Other ETCS requirements (related to existing not interoperable networks)
12.2.5.8 Specification of condition of use where ETCS on-board does not implement all functions, interfaces and performances 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
3.3 Bogies / running gear
3.3.1 Bogies
3.3.2 Wheelset (complete)
3.3.3 Wheel
3.3.4 Wheel/rail interaction influencing systems
3.3.5 Sanding system
3.3.6 Bearings on the wheelset
3.3.7 Axle shaft
3.3.8 Axle bearing condition monitoring
4.4 Brake command
4.4.1 Emergency braking command
4.4.2 Service braking command
4.4.3 Direct braking command
4.4.4 Dynamic braking command
4.4.5 Parking braking command
4.5 Brake performance
4.5.1 Emergency braking performance
4.5.2 Service braking performance
4.5.3 Calculations related to thermal capacity
4.5.4 Parking brake performance
4.5.5 Brake performance calculation
4.6 Braking adhesion management
4.6.1 Limit of wheel rail adhesion profile
4.6.2 Wheel slide protection system (“WSP”)
8.4 Electromagnetic Compatibility ("EMC")
8.4.1 EMC within the vehicle
8.4.2 EMC between the vehicle and the railway system
8.4.2.1 Maximum currents
8.4.2.1.1 Rail return current
8.4.2.1.2 Heating cable interference current
8.4.2.1.3 Interference current under the vehicle
8.4.2.1.4 Harmonic characteristics and related overvoltages on the overhead contact line
8.4.2.1.5 Effects of DC content in AC supply
8.4.2.2 Maximum electro-magnetic fields/Induced voltages
8.4.2.2.1 Electro-magnetic fields/Induced voltages in the track/under the vehicle
8.4.2.2.2 Electro-magnetic fields/Induced voltages outside the track
8.4.2.3 Vehicle entrance impedance
8.4.2.4 Psophometric current
8.4.2.5 Transverse voltage limits for compatibility voice/data circuits
8.4.3 EMC between the vehicle and the environment
8.4.3.1 Maximum electro-magnetic fields
8.4.3.2 Induced interference current/voltage
8.4.3.3 Psophometric current
8.5 Protection against electrical hazards
8.6 Diesel and other thermal traction system requirements
12.1 On-board radio system
12.1.1 Non-GSM-R radio system
12.1.2 GSM-R compliant radio system
12.1.2.1 Use of hand portables as cab mobile radio
12.1.2.2 Other GSM-R requirements
12.2 On-board signalling
12.2.1 National on-board signalling systems
12.2.2 STM requirements
12.2.3 Transitions
12.2.4 Compatibility of rolling stock with CCS Trackside
12.2.4.1 Minimum axle distance
12.2.4.2 Minimum wheel diameter
12.2.4.3 Metal and inductive components-free space between wheels
12.2.4.4 Metal mass of a vehicle
12.2.4.5 Compatibility with fixed installations of CCS
12.2.5 ETCS cab signalling system
12.2.5.1 Level crossing functionality
12.2.5.2 Braking safety margins
12.2.5.3 Reliability - availability requirements
12.2.5.4 Safety requirements
12.2.5.5 Ergonomic aspects of DMI
12.2.5.6 Interface with service brake
12.2.5.7 Other ETCS requirements (related to existing not interoperable networks)
12.2.5.8 Specification of condition of use where ETCS on-board does not implement all functions, interfaces and performances 1435mm / Autonomous / PZB 90
3.3 Bogies / running gear
3.3.1 Bogies
3.3.2 Wheelset (complete)
3.3.3 Wheel
3.3.4 Wheel/rail interaction influencing systems
3.3.5 Sanding system
3.3.6 Bearings on the wheelset
3.3.7 Axle shaft
3.3.8 Axle bearing condition monitoring
4.4 Brake command
4.4.1 Emergency braking command
4.4.2 Service braking command
4.4.3 Direct braking command
4.4.4 Dynamic braking command
4.4.5 Parking braking command
4.5 Brake performance
4.5.1 Emergency braking performance
4.5.2 Service braking performance
4.5.3 Calculations related to thermal capacity
4.5.4 Parking brake performance
4.5.5 Brake performance calculation
4.6 Braking adhesion management
4.6.1 Limit of wheel rail adhesion profile
4.6.2 Wheel slide protection system (“WSP”)
8.4 Electromagnetic Compatibility ("EMC")
8.4.1 EMC within the vehicle
8.4.2 EMC between the vehicle and the railway system
8.4.2.1 Maximum currents
8.4.2.1.1 Rail return current
8.4.2.1.2 Heating cable interference current
8.4.2.1.3 Interference current under the vehicle
8.4.2.1.4 Harmonic characteristics and related overvoltages on the overhead contact line
8.4.2.1.5 Effects of DC content in AC supply
8.4.2.2 Maximum electro-magnetic fields/Induced voltages
8.4.2.2.1 Electro-magnetic fields/Induced voltages in the track/under the vehicle
8.4.2.2.2 Electro-magnetic fields/Induced voltages outside the track
8.4.2.3 Vehicle entrance impedance
8.4.2.4 Psophometric current
8.4.2.5 Transverse voltage limits for compatibility voice/data circuits
8.4.3 EMC between the vehicle and the environment
8.4.3.1 Maximum electro-magnetic fields
8.4.3.2 Induced interference current/voltage
8.4.3.3 Psophometric current
8.5 Protection against electrical hazards
8.6 Diesel and other thermal traction system requirements
12.1 On-board radio system
12.1.1 Non-GSM-R radio system
12.1.2 GSM-R compliant radio system
12.1.2.1 Use of hand portables as cab mobile radio
12.1.2.2 Other GSM-R requirements
12.2 On-board signalling
12.2.1 National on-board signalling systems
12.2.2 STM requirements
12.2.3 Transitions
12.2.4 Compatibility of rolling stock with CCS Trackside
12.2.4.1 Minimum axle distance
12.2.4.2 Minimum wheel diameter
12.2.4.3 Metal and inductive components-free space between wheels
12.2.4.4 Metal mass of a vehicle
12.2.4.5 Compatibility with fixed installations of CCS
12.2.5 ETCS cab signalling system
12.2.5.1 Level crossing functionality
12.2.5.2 Braking safety margins
12.2.5.3 Reliability - availability requirements
12.2.5.4 Safety requirements
12.2.5.5 Ergonomic aspects of DMI
12.2.5.6 Interface with service brake
12.2.5.7 Other ETCS requirements (related to existing not interoperable networks)
12.2.5.8 Specification of condition of use where ETCS on-board does not implement all functions, interfaces and performances
3.1.3.1.6 Comments:
This locomotive is also authorised in AT under type version 11-075-0003-3-001-002
3.1.3.1.7 Reference to the written declaration by the proposer referred to in Article 3(11) of Regulation (EU) 402/2013:
BB19307000337_--_Declaration on CSM_s
3.1.3.2 Correction
3.1.3.2.2 Date of the last modification:
2023-03-30
3.1.3.2.8 Reference to the written declaration by the proposer referred to in Article 3(11) of Regulation (EU) 402/2013:
BB19307000337_C0_Declaration on CSM_EN_DE_signed
3.1.3.3 Modification
3.1.3.3.2 Date of the last modification:
2023-04-20
3.1.3.3.5 Certificate of verification : Reference of type examination or design examination type:
Number of vehicles composing the fixed formation (for fixed formation only) : [Number] Note: the value is mandatory for all vehicle categories. If the vehicle is composed of only one car, the indicated value shall be “1”.
1
4.13.1 Signalling
4.13.1.1 ETCS equipment on-board and the set of specifications from CCS TSI Annex A RC
Class B or other train protection control and warning systems installed (system and if applicable version) : [Character string] From a predefined list (more than one option possible)
ETCS System Compatibility : [Character string] From a predefined list (more than one option possible).
- “Not applicable”: ETCS is not installed or not authorised in the vehicle.
- “ESC-EU-0”: The on-board subsystem only have EC certificates, without any ESC checks.
- “ESC-NP-CCS7.4a”: The technical compatibility has been demonstrated according to a previous national procedure.
ESC-DE-01-B2_L2 ESC-DE-02-B3_L2
4.13.1.9 Managing information about the completeness of the train RC
Class B or other radio systems installed (system and if applicable version) : [Character string] From a predefined list (more than one option possible)
Radio Voice System Compatibility : [Character string] From a predefined list (more than one option possible)
- “Not applicable”: GSM-R is not installed or not authorised in the vehicle.
- “RSC-EU-0”: The on-board subsystem only have EC certificates, without any RSC checks.
- “RSC-NP-CCS7.4a”: The technical compatibility has been demonstrated according to a previous national procedure.
RSC-DE-01-V
4.13.2.6 Voice and operational communication implementation RC
Radio Data System Compatibility : [Character string] From a predefined list (more than one option possible)
- “Not applicable”: GSM-R is not installed or not authorised in the vehicle.
- “RSC-EU-0”: The on-board subsystem only have EC certificates, without any RSC checks.
- “RSC-NP-CCS7.4a”: The technical compatibility has been demonstrated according to a previous national procedure.
RSC-EU-0
4.13.2.9 Data communication application for ETCS implementation RC
Energy supply system (voltage and frequency) : [Character string] From a predefined list (multiple selection possible)
Autonomous AC 15kV-16.7Hz
4.10.5 Height of interaction of pantograph with contact wires (over top of rail) (to be indicated for each energy supply system the vehicle is equipped for) RC
Height of interaction of pantograph with contact wires (over top of rail) (to be indicated for each energy supply system the vehicle is equipped for) : [Number] From [m] to [m] (with two decimals)
AC 15kV-16.7Hz
0004.80 m to 0006.61 m
4.10.6 Pantograph head geometry (to be indicated for each energy supply system the vehicle is equipped for) RC
Pantograph head geometry (to be indicated for each energy supply system the vehicle is equipped for) : [Character string] for [energy supply system automatically prefilled in]
From a predefined list (multiple selection possible)
AC 15kV-16.7Hz
1950 sc DE and AT mm 1450 mm mm
4.10.7 Number of pantographs in contact with the overhead contact line (OCL) (to be indicated for each energy supply system the vehicle is equipped for) RC
Number of pantographs in contact with the overhead contact line (OCL) (to be indicated for each energy supply system the vehicle is equipped for) : [Number]
AC 15kV-16.7Hz
1
4.10.10 Material of pantograph contact strip the vehicle may be equipped with (to be indicated for each energy supply system the vehicle is equipped for) RC
Material of pantograph contact strip the vehicle may be equipped with (to be indicated for each energy supply system the vehicle is equipped for) : [Character string] for [energy supply system automatically prefilled in] From a predefined list (multiple selection possible) From a predefined list (multiple selection possible)
AC 15kV-16.7Hz
Plain carbon
4.10.11 Automatic dropping device (ADD) fitted (to be indicated for each energy supply system the vehicle is equipped for) RC
Reference profile : [character string] Selection from predefined list (more than one possible)
(the list will be different for different categories depending on the applicable TSI)
Static axle load under exceptional payload : [number] kg
20000 kg
4.5.3.4 Position of the axles along the unit (axle spacing) : a: Distance between axles b: Distance from end axle to the end of the nearest coupling plane c: distance between two inside axles
Position of the axles along the unit (axle spacing) :
a: Distance between axles - [number] m
b: Distance from end axle to the end of the nearest coupling plane - [number] m
c: distance between two inside axles - [number] m
..... IMPORTANT: An explanation of the values is needed.
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
a: 0001.80 m b: 0002.81 m c: 0010.20 m
Explanations: N/A
1435mm / AC 15kV-16.7Hz / PZB 90
a: 0001.80 m b: 0002.81 m c: 0010.20 m
Explanations: N/A
1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
a: 0001.80 m b: 0002.81 m c: 0010.20 m
Explanations: N/A
1435mm / Autonomous / PZB 90
a: 0001.80 m b: 0002.81 m c: 0010.20 m
Explanations: N/A
4.5.5 Total vehicle mass (for each vehicle of the unit)
Possibility of preventing the use of the regenerative brake (only if fitted with regenerative brake) : [Boolean] Y/N
True
4.7.5 Emergency brake : Stopping distance and deceleration profile for each load condition per design maximum speed a: Load condition: working order
b: Load condition: normal payload
c: Load condition: exceptional payload
Emergency brake : Stopping distance and deceleration profile for each load condition per design maximum speed a: Load condition: working order - [number] m [number] m/s²
b: Load condition: normal payload - [number] m [number] m/s²
c: Load condition: exceptional payload - [number] m [number] m/s²
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
a: 0633.00 m 0000.88 m/s² b: 0633.00 m 0000.88 m/s² c: 0633.00 m 0000.88 m/s² 1435mm / AC 15kV-16.7Hz / PZB 90
a: 0633.00 m 0000.88 m/s² b: 0633.00 m 0000.88 m/s² c: 0633.00 m 0000.88 m/s² 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
a: 0633.00 m 0000.88 m/s² b: 0633.00 m 0000.88 m/s² c: 0633.00 m 0000.88 m/s² 1435mm / Autonomous / PZB 90
a: 0633.00 m 0000.88 m/s² b: 0633.00 m 0000.88 m/s² c: 0633.00 m 0000.88 m/s²
4.7.6 For general operation :
Brake weight percentage (lambda) or Braked mass
For general operation :
Brake weight percentage (lambda) or Braked mass : Lambda (%)
[number] tonnes
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
118.00 (%) or 00145.00 tonnes 1435mm / AC 15kV-16.7Hz / PZB 90
118.00 (%) or 00145.00 tonnes 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
118.00 (%) or 00145.00 tonnes 1435mm / Autonomous / PZB 90
118.00 (%) or 00145.00 tonnes
4.7.7 Service brake: At maximum service brake:
Stopping distance,
Maximum deceleration, for the load condition ‘design mass under normal payload’ at the design maximum speed.
Service brake: At maximum service brake:
Stopping distance,
Maximum deceleration, for the load condition ‘design mass under normal payload’ at the design maximum speed. :
[number] m
[number] m/s²
1435mm / AC 15kV-16.7Hz / Implementing Regulation (EU) 2020/387 Set_2
0691.00 m - 0000.80 m/s² 1435mm / AC 15kV-16.7Hz / PZB 90
0691.00 m - 0000.80 m/s² 1435mm / Autonomous / Implementing Regulation (EU) 2020/387 Set_2
0691.00 m - 0000.80 m/s² 1435mm / Autonomous / PZB 90
0691.00 m - 0000.80 m/s²
Type of train detection systems for which the vehicle has been designed and assessed : [Character string] From a predefined list (more than one option possible)
