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ICE 2

The ICE 2 is a high-speed electric multiple-unit train operated by Deutsche Bahn (DB) in Germany, forming the second generation of the InterCity-Express (ICE) family introduced in 1996.^[1] It is designed for domestic long-distance services with a maximum operating speed of 280 km/h (174 mph), featuring a modular "half-train" configuration consisting of one power car, six intermediate passenger cars, and one driving trailer car, allowing two such units to be coupled into a longer double formation for flexibility on varying demand levels.^[1] With a total length of 205 meters and a capacity of 381 seats, the ICE 2 emphasizes efficiency and passenger comfort through its aerodynamic design and modernized interiors.^[1] The development of the ICE 2 followed the debut of the original ICE 1 in 1991, addressing limitations in flexibility and capacity utilization identified during early high-speed operations on Germany's expanding rail network.^[2] Manufactured by a consortium led by Siemens AG, the ICE 2 was produced between 1995 and 1997, with 44 units entering service starting in December 1996 to support growing intercity demand without the full-length fixed formations of its predecessor.^[3] This generation incorporated lessons from ICE 1, including improved aerodynamics with distinctive nose covers on the power car (class 402) and driving trailer to reduce air resistance, while prioritizing cost-effective modularity for easier maintenance and route adaptability.^[1] Technically, each ICE 2 half-train weighs 418 tonnes when empty and is powered by the class 402 electric locomotive at one end, drawing from the 15 kV 16.7 Hz AC overhead lines standard in Germany.^[1] The intermediate cars include a mix of first- and second-class seating, with amenities such as air conditioning, power outlets, and dining facilities in dedicated restaurant cars when coupled.^[4] A major modernization program in 2011 upgraded the passenger information systems, adding six monitors per carriage and enhanced grab handles for improved accessibility and safety.^[1] Unlike later ICE models, the ICE 2 lacks tilting technology and is not certified for international operations, confining it to domestic routes.^[1] In operation, the ICE 2 primarily serves key German corridors such as Berlin to Munich, Hamburg to Cologne, and routes through the Rhine Valley, often splitting or coupling en route to optimize service—for instance, a single train from Berlin might divide at Hamm to reach both Düsseldorf and Wuppertal.^[1] As of 2025, all 44 units remain active despite the introduction of newer generations like the ICE 4, though DB has signaled gradual phase-out plans amid fleet renewal efforts to replace older rolling stock with more efficient models.^[5] The ICE 2's enduring role underscores its reliability, having transported millions of passengers over nearly three decades while contributing to Germany's high-speed rail infrastructure that now spans over 1,500 km of dedicated lines.^[2]

History and Development

Origins

The ICE 2 was conceived in the early 1990s as a shorter and more flexible alternative to the fixed 14-car formations of the predecessor ICE 1, enabling better service on regional high-speed routes where full-length trains were impractical.^[1] This design addressed limitations in the ICE 1 fleet by allowing individual half-trains—each consisting of a powerhead, six intermediate cars, and a control car—to operate independently or be coupled into double units for longer distances, thereby optimizing capacity and operational efficiency on secondary lines experiencing overcrowding.^[1]^[6] Key design goals for the ICE 2 focused on reducing overall weight to enhance acceleration and energy efficiency, improving aerodynamics for higher speeds on upgraded tracks, and ensuring full compatibility with the existing ICE infrastructure, including signaling and power systems.^[6] These objectives aimed to expand high-speed services beyond major corridors while maintaining interoperability across Deutsche Bahn's network.^[7] The tender process for the second-generation ICE began on October 21, 1992, when Deutsche Bahn issued specifications explicitly designating the new trains as ICE 2 for the first time.^[8] Starting in 1993, a competitive bidding phase involved major manufacturers, including a consortium led by Siemens and Adtranz (now part of Bombardier), who proposed solutions based on the requirements for modular, couplable half-trains.^[6]^[7] In 1994, Deutsche Bahn placed the order for 44 such trainsets to meet growing demand for versatile high-speed operations.^[1]

Production and Introduction

The ICE 2 trainsets were produced between 1995 and 1997 by a consortium led by Siemens and Adtranz, with manufacturing occurring at Adtranz's facility in Hennigsdorf for control cars and Siemens plants for powerheads and other components.^[9]^[10] A total of 44 complete trainsets were built, each comprising one powerhead, six passenger coaches, and one control car, enabling flexible double-traction operations for longer formations.^[6]^[1] The fleet entered service in 1996 following initial testing, marking the introduction of a more modular high-speed train design compared to the earlier ICE 1.^[11] These trains were initially certified for a maximum speed of 280 km/h but operated at lower speeds on non-upgraded lines to accommodate the existing network infrastructure during the rollout phase.^[6]^[11]

Refurbishments and Upgrades

Between 2010 and 2013, Deutsche Bahn undertook a comprehensive refurbishment program for its fleet of 44 ICE 2 trainsets, focusing on enhancing passenger comfort and technical reliability. The initiative, carried out primarily at the maintenance facility in Nuremberg, included interior updates such as new space-saving seats that increased capacity by 13 places per trainset, additional power outlets for laptops, and redesigned bistro cars equipped with espresso-capable coffee machines. Improved accessibility features were also incorporated to better accommodate passengers with disabilities, aligning with evolving regulatory standards. Technical modifications encompassed new anti-sway dampers on bogies, modernized coupling systems, and adjustments to air conditioning units to meet requirements from the Federal Ministry of Transport. The total cost of this program amounted to €100 million and secured approximately 320 jobs at the Nuremberg site. By mid-2013, all units had been completed, with 38 already returned to service by late 2012.^[10]^[12] In 2014, Deutsche Bahn awarded Mitsubishi Electric a €22 million contract to upgrade the traction systems on 44 ICE 2 trainsets, targeting improved reliability and efficiency. The project involved replacing outdated gate turn-off thyristor (GTO) power modules and traction converters with more compact and lighter insulated gate bipolar transistor (IGBT) modules, which reduce energy consumption and heat generation. Mitsubishi handled the supply, installation, testing, and homologation support, with work commencing after certification of the initial units and concluding by fiscal 2019. These enhancements complied with updated European Union safety standards, contributing to overall fleet modernization.^[13]^[14] The combined refurbishments extended the projected service life of the ICE 2 fleet beyond its original timeline, initially planned through 2025, while achieving measurable gains in energy efficiency through lighter components and optimized systems. This allowed continued operation on high-speed routes with reduced operational costs and environmental impact.^[12]^[13]

Phase-out Plans

In 2024, Deutsche Bahn announced the full phase-out of the ICE 2 fleet by the end of 2027, accelerating from the prior target of 2029 due to escalating maintenance costs and broader fleet modernization efforts.^[5] The decision stems from several factors, including high operational costs linked to aging components such as powerheads and control systems, the growing deployment of more efficient ICE 3 and ICE 4 trains, and infrastructure enhancements that accommodate longer train consists for higher capacity.^[15]^[16] Replacement will occur gradually, with ICE 2 sets being substituted by ICE 4 multi-unit trains on major domestic routes to improve reliability and passenger capacity; as of 2025, no specific plans for exporting the fleet or designating units for preservation have been outlined.^[17] As of mid-2025, around 36 ICE 2 units remain in active service, operating with reduced allocations on secondary high-speed lines.^[15] Upgrades implemented in the 2010s, including improved braking systems and interior refurbishments, temporarily extended the fleet's viability before end-of-life considerations took precedence.^[18]

Design and Configuration

Overall Layout

The ICE 2 trainset follows a modular half-train design, consisting of a single powerhead (class 402) at one end, followed by six intermediate passenger coaches (classes 805 for first-class seating, 806 for second-class seating, and 807 for mixed amenities), and a control car (class 808) at the opposite end, forming an eight-car unit. This configuration evolved from the longer, fixed consists of the ICE 1, prioritizing operational flexibility over extended single-unit length.^[19]^[1] The half-train concept allows two ICE 2 sets to couple automatically via Scharfenberg couplers—equipped with integrated air, brake, control, and communication lines—to create a 16-car double formation for high-demand services, which can later be decoupled at stations to serve branching routes. The half-train unit measures 205 meters in length, while a coupled double formation extends to approximately 410 meters, enabling efficient platform use and rapid reconfiguration.^[19]^[1] Aerodynamically, the trainset incorporates a streamlined nose on the powerhead and a rounded cab profile on the control car to minimize drag, contributing to efficient high-speed performance up to 280 km/h. Unlike earlier models with separate dining facilities, the ICE 2 integrates bistro services directly into one of the intermediate coaches, providing snacks, beverages, and light meals without a standalone restaurant car.^[19]^[1]

Powerhead

The powerhead of the ICE 2 trainset, designated as Class 402, serves as the single locomotive unit with a Bo'Bo' wheel arrangement comprising four powered axles, enabling distributed propulsion through four traction motors.^[11] This configuration supports the train's high-speed capabilities while maintaining structural integrity at the front of the half-train formation.^[20] A key feature of the Class 402 powerhead is its use of Scharfenberg automatic couplers, concealed behind aerodynamic bug flaps to reduce air resistance, which facilitate quick coupling of two half-trains into a full-length service without manual intervention, unlike traditional screw couplers on predecessor models.^[20] The cab within the powerhead is engineered for two-person operation, incorporating advanced driver interfaces that integrate with cab signaling systems such as Linienzugbeeinflussung (LZB) for continuous train control.^[21] Weighing approximately 77 tons, the powerhead contributes to the ICE 2's overall lighter weight profile relative to earlier high-speed designs like the ICE 1, enhancing energy efficiency and acceleration in the trainset layout.^[22]

Control Car

The control car of the ICE 2, designated as class 808 (Bpmzf 808), is an unpowered end car equipped with a driver's cab, serving as the rear unit in the train's configuration.^[11] This design allows the ICE 2 to operate bidirectionally without needing to turn the entire train at terminal stations, enhancing operational efficiency on routes with frequent direction changes.^[23] The class 808 integrates essential control electronics for train management, including the Linienzugbeeinflussung (LZB) signaling system and the Diagnoserechner DAVID diagnostic computer, housed in a dedicated machine room between the cab and passenger area.^[23] These systems manage brake controls, such as the emergency brake override, and relay signaling data to ensure safe high-speed operations.^[11] Complementing the powerhead at the opposite end, the control car enables flexible formations, including coupling of multiple ICE 2 units for longer services.^[23] A key design feature is the open-end corridor, which facilitates seamless passenger flow between cars and supports easy coupling without barriers.^[23] The car's structure incorporates reinforcements, including stable struts to mitigate vibrations and enhanced crash safety elements like crash-tested Scharfenberg couplings, contributing to overall train resilience.^[23] When the class 808 leads the train, the maximum operational speed is limited to 250 km/h, compared to 280 km/h with the powerhead leading, due to aerodynamic and pantograph positioning considerations.^[23]

Passenger Coaches

The ICE 2 trainset consists of six intermediate passenger coaches, typically comprising two first-class cars (classified as Ba 805), three second-class cars (Ba 806), and one multi-purpose bistro car (WR 807). These coaches integrate into the overall eight-car formation, positioned between the powerhead and control car to provide dedicated passenger space.^[24]^[1] First-class coaches feature a 2+1 seating arrangement with reclining seats designed for enhanced comfort, including adjustable headrests and footrests, while second-class coaches employ an airliner-style 2+2 layout post-refurbishment for efficient space utilization. The bistro car offers a mix of seating and standing areas for casual dining, with a counter service area and limited tables. All coaches include onboard toilets, with at least one accessible unit per trainset located adjacent to the bistro car, and dedicated luggage racks near entrances and above seats to accommodate traveler needs.^[24]^[25] Comfort is prioritized through air suspension on the bogies, which provides a smoother ride by reducing vibrations and noise compared to earlier models, complemented by air conditioning and modernized interiors from the 2011 refurbishment that added power sockets at seats and improved upholstery. Quiet zones are designated in both classes to minimize disturbances, and family areas with play features are available in select second-class sections. No sleeping accommodations are provided, as the ICE 2 is optimized for daytime intercity travel.^[1]^[26] Accessibility features include two wheelchair spaces in a second-class coach near the bistro, with space for assistance and transfer to the accessible toilet. Post-refurbishment upgrades in upgraded units incorporate wider doors and better signage for easier boarding, though entry remains at platform level without full low-floor design.^[25]^[26]^[1]

Technical Specifications

Dimensions and Capacity

The ICE 2 trainset, consisting of a power car, six intermediate coaches, and a control car, has an overall length of 205 m, enabling flexible operations either as a single unit or coupled in double traction for longer formations. Its width measures 3.07 m for the power unit and 3.02 m for the coaches, while the height is uniformly 3.84 m across the trainset. The bogie wheelbase on the power unit is 11.46 m, contributing to stable high-speed performance on standard infrastructure.^[1]^[19] In terms of passenger capacity, the trainset provides 381 seats in total, distributed across first-class and second-class sections, including a bistro area within the second-class coaches for onboard dining. Additional space for luggage is provided in dedicated areas.^[1] The empty weight of the trainset is 418 tons, increasing to roughly 450 tons when fully loaded with passengers and luggage, reflecting its robust construction for high-speed service. It operates on the standard European track gauge of 1,435 mm, ensuring compatibility with the Deutsche Bahn network.^[1]

Propulsion System

The ICE 2 powerhead is equipped with a single-voltage electrical system designed for 15 kV 16.7 Hz AC overhead lines, ensuring compatibility with the electrification standards of the German railway network.^[27] This setup allows the train to operate seamlessly on domestic high-speed routes without requiring additional voltage converters. Traction power is provided by four three-phase asynchronous motors, one mounted on each axle of the powerhead's two bogies, enabling distributed propulsion that enhances adhesion and stability during acceleration.^[28] These motors are driven by gate turn-off (GTO) thyristor inverters using pulse-width modulation, which were upgraded to insulated gate bipolar transistor (IGBT) modules starting in 2014 to improve efficiency and reduce weight.^[13] The total power output is 4,800 kW, supporting high-speed operations while maintaining reliable torque distribution across the axles.^[27] Braking incorporates regenerative systems that feed energy back to the overhead lines via the asynchronous motors, supplemented by electro-pneumatic friction disc brakes for precise control.^[28] Sanders are integrated to apply traction sand during low-adhesion conditions, preventing wheel slip and ensuring safe deceleration on contaminated rails.^[29] This propulsion configuration is integrated directly into the powerhead structure for optimal weight distribution and maintenance access.

Performance Characteristics

The ICE 2 features a design maximum speed of 280 km/h, though it is routinely operated at 250 km/h in regular service on high-speed lines.^[1]^[28] When two sets are coupled with the control car leading, operational speed is limited to 160 km/h due to the close spacing of pantographs on adjacent cars, which could otherwise cause electrical arcing.^[19] From standstill, the ICE 2 accelerates at 0.35 m/s², powered by its distributed traction system, allowing it to attain top operational speeds in under 5 minutes on upgraded tracks with favorable gradients.^[30] Following refurbishments, the ICE 2 achieves improved energy efficiency. At 250 km/h, it maintains low exterior noise levels. For safety, the ICE 2 is equipped with Linienzugbeeinflussung (LZB), a cab-signalling and automatic train protection system that continuously monitors speed, braking distances, and signal aspects to prevent collisions and overspeeding on equipped lines.^[28]

Operations

Domestic Routes

The ICE 2 primarily serves the main domestic line from Berlin Hauptbahnhof to Köln Hauptbahnhof, routing via Hamm, where coupled half-trains split at Hamm—one portion continuing to Cologne via Wuppertal and Solingen, the other to Düsseldorf via Dortmund and Essen.^[1]^[25] A key secondary route runs from Munich Hauptbahnhof to Hamburg-Altona and Bremen Hauptbahnhof via Hannover, with trains splitting at Hannover—one half proceeding to Hamburg-Altona, the other to Bremen Hauptbahnhof.^[25]^[31] As of 2025, this network supports up to 10 daily pairs on the Berlin-Cologne line, achieving journey times of approximately 4 hours over the 580 km distance.^[32]^[33] These services utilize upgraded infrastructure, such as the Hanover–Würzburg high-speed rail line, while avoiding any non-electrified sections to maintain consistent electric propulsion.^[25] On peak-demand segments, ICE 2 units may couple to form longer consists for enhanced capacity.^[1]

Train Formations and Coupling

The ICE 2 operates in flexible formations to accommodate varying passenger demands, with single seven-car units consisting of one powerhead, six intermediate coaches, and one control car. In double formation, two such units are coupled end-to-end via the powerhead of one and the control car of the other, creating a 14-car train for enhanced capacity on high-demand services. This configuration increases seating from 381 in a single unit to 762 in the coupled double unit.^[1] Coupling is facilitated by an automatic Scharfenberg system located at the compatible ends, which simultaneously connects mechanical, pneumatic, electrical, and control lines for synchronized operation. The process, including alignment and verification of systems, typically takes 2-3 minutes and can be performed at terminals or during short stops. Once coupled, the train functions as a unified block with distributed traction from both powerheads.^[19] Single units are commonly used for less busy regional services, providing efficient operation with reduced energy consumption, while double formations are deployed during peak hours to boost capacity on major corridors, such as the Berlin-Cologne route. Uncoupling follows a reverse procedure and occurs at intermediate stops, allowing the train to divide for branching to multiple destinations; for instance, splits are executed at stations like Hamm to optimize service patterns.^[1] All 44 ICE 2 units are based for stabling and maintenance at the Berlin-Rummelsburg depot, Deutsche Bahn's dedicated facility for high-speed train upkeep, which includes specialized halls for cleaning, inspection, and repairs.^[34]

Speed and Service Limitations

The ICE 2 operates at a maximum design speed of 280 km/h on dedicated high-speed tracks in Germany, though practical operational limits are often set at 250 km/h to ensure safety and infrastructure compatibility.^[1]^[6] On conventional legacy lines, speeds are restricted to 200 km/h due to track conditions and signaling constraints.^[25] In double formations, where two half-trains are coupled, the maximum speed drops to 160 km/h if the control car is leading, as the non-powered end lacks the aerodynamic and stability features of the power car. This configuration prioritizes flexibility for route branching but imposes aerodynamic and dynamic performance penalties. The ICE 2's single-voltage electrical system, designed for 15 kV 16.7 Hz AC overhead lines, confines operations to the electrified network of Germany due to its single-voltage system. Without multi-system capability for 25 kV 50 Hz AC or DC systems used elsewhere in Europe, the train cannot operate on international routes without additional infrastructure adaptations, limiting its cross-border service potential compared to later ICE models.^[6] Reliability has improved following comprehensive modernizations starting in 2011, which included upgrades to passenger information systems and seating for enhanced durability.^[1] Deutsche Bahn reports steadily increasing vehicle availability across the ICE fleet, with reduced fault rates contributing to fewer disruptions, though occasional delays persist from overhead line pantograph interactions.^[35] No major accidents involving fatalities or derailments have been recorded for the ICE 2 fleet, distinguishing it from earlier ICE 1 incidents like the 1998 Eschede disaster.^[6] To optimize energy use and adapt to varying demand, ICE 2 services often run in reduced formations during off-peak periods, utilizing a single half-train (one power car, six intermediate cars, and one control car) instead of the standard coupled double set.^[36] This shorter consist, measuring 205 meters and seating 381 passengers, allows for efficient operation on less busy routes while maintaining service frequency.

Eurotrain Project

Background and Formation

The Eurotrain consortium was formed in March 1996 as a joint venture owned 40% by Siemens AG of Germany and 60% by GEC-Alsthom of France (now Alstom), aimed at marketing integrated high-speed rail technology for international exports, particularly in Asia.^[37]^[38] This partnership sought to merge the established strengths of German and French high-speed systems to enhance competitiveness in global tenders, drawing on the ICE 2's modular push-pull configuration for flexible train formations and the TGV Duplex's double-deck intermediate cars to achieve higher passenger capacities suited to densely populated routes.^[38] The initiative was driven by the need to address high-volume transport demands in emerging Asian markets, with an initial emphasis on projects requiring elevated throughput without extensive infrastructure overhauls.^[38] The ICE 2 specifically contributed its proven powerheads and control systems, adapted from the domestic fleet for integration into hybrid prototypes that paired with TGV components, enabling rapid development for bids like Taiwan's high-speed rail.^[38] Announced amid growing Asian infrastructure investments, the venture focused from the outset on scalable designs to handle intense passenger volumes, positioning Eurotrain as a unified European offering by late 1996. On 25 September 1997, Taiwan High Speed Rail Corporation (THSRC) selected Eurotrain as the preferred bidder to supply 30 high-speed trainsets for its project.^[37]

Demonstration and Trials

The Eurotrain prototype, assembled in April 1998 by the consortium of Siemens, GEC-Alsthom, and partners, utilized two ICE 2 powerheads—units 402 042 and 402 046—positioned at either end of twelve bi-level passenger cars in an extended configuration sourced from TGV Duplex trainsets. This hybrid configuration, with the powerheads connected via high-voltage roof cabling and standard buffers, formed a train exceeding 300 meters in length to illustrate the potential for integrated European high-speed technology in international projects.^[19] Trials commenced shortly after assembly, with the prototype first presented to the public in Hamburg on 3 May 1998. On 4 May 1998, it conducted a demonstration run along the Hanover–Würzburg high-speed railway, reaching a maximum speed of 316 km/h while carrying invited guests. The tests emphasized interoperability between German and French components, aerodynamic stability at elevated speeds, and the practical integration of bi-level cars with push-pull powerheads, confirming reliable operation under high-speed conditions.^[39]^[40] The demonstration successfully validated a passenger capacity exceeding 500 seats in the bi-level configuration, paired with sustained performance at 300 km/h, highlighting the system's efficiency for dense routes. However, despite these technical achievements, the Eurotrain received no commercial orders beyond the prototype trials, as THSRC announced on 28 December 1999 that it would negotiate the primary contract with the rival Japanese Shinkansen consortium, with the final agreement signed in December 2000, following a competitive bidding process.^[41]^[42]^[43]

Contract Outcomes

The Eurotrain consortium, a joint venture between Siemens and Alstom, was selected as the preferred bidder in September 1997 to supply 30 high-speed trainsets for Taiwan's High Speed Rail (HSR) project, with formal agreements advancing into 1998.^[44]^[45] However, THSRC announced in December 1999 its decision to negotiate with, and ultimately awarded the contract in December 2000 to, a Japanese consortium led by Kawasaki Heavy Industries offering Shinkansen technology, due to political pressures from Japan and anticipated cost reductions for the operator.^[46]^[47] The loss prompted legal action, with Eurotrain seeking injunctions and filing a US$800 million civil lawsuit against Taiwan High Speed Rail Corporation (THSRC) in February 2001, alleging breach of binding supply agreements.^[48]^[49] The disputes culminated in International Chamber of Commerce arbitration, resulting in a March 2004 ruling that ordered THSRC to pay Eurotrain US$73.04 million in damages plus interest for the failed contract, with settlement reached in November 2004.^[50] The Eurotrain project incurred substantial development costs, approximately US$32 million for the prototype and related efforts, representing a significant financial setback for Siemens and Alstom. Despite the commercial failure, the collaboration advanced hybrid high-speed technologies that informed later exports, such as Siemens' Velaro platform, though no direct ICE 2-based trainsets were sold abroad. The consortium effectively dissolved by 2001 following the Taiwan outcome. After 2000, the Eurotrain prototype's components—including ICE 2 power cars borrowed from Deutsche Bahn—were returned to domestic German service, marking the end of international pursuits for ICE 2 adaptations.^[51]

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Sep 29, 2025 · There's some ICE2 pairs that work paired between München and Hannover where they split with a portion for Bremen and a portion for Hamburg.Missing: Göttingen | Show results with:Göttingen
[37]
Berlin to Cologne (Germany) by Train from $12.13 - Trainline
Starting from $12.13It takes an average of 4h 46m to travel from Berlin to Cologne (Germany) by train, over a distance of around 295 miles (476 km). There are normally 11 trains ...
[38]
Cheap Berlin To Cologne Train Tickets - From US$17.50 | Rail Europe
The fastest trains from Berlin to Cologne take around 3 hours and 59 minutes, covering a distance of approximately 476 kilometres.Missing: ICE | Show results with:ICE
[39]
Fleet Management: DB invests to keep ICE fleet in trim | In depth
Feb 15, 2023 · On December 20 2022 Deutsche Bahn opened an expanded five-track workshop for ICE trainsets at its Berlin-Rummelsburg maintenance centre. DB ...<|control11|><|separator|>
[40]
Control car - Wikipedia
A special circumstance is the ICE 2, which may operate with the control car in the lead at up to 250 km/h (160 mph) on the recently built high-speed lines.
[41]
15 kV AC railway electrification - Wikipedia
Railway electrification using alternating current (AC) at 15 kilovolts (kV) and 16.7 hertz (Hz) are used on transport railways in Germany, Austria, Switzerland ...Missing: ICE | Show results with:ICE
[42]
[PDF] Deutsche Bahn Quality Report 2023
A positive point worth mentioning is that the number of vehicle faults has decreased, while vehicle availability is increasing. 4. DEUTSCHE BAHN GROUP > QUALITY ...
[43]
ICE Train - ACP Rail
Maximum operating speed: 280km/h. Layout: 2 power cars + 12-14 passenger and service coaches. ICE 2. First introduced: 1995. Maximum operating speed: 280km/h.
[44]
DB Regio contracts Alstom to equip 215 S-Bahn trains with ETCS ...
29 Jun 2021 · At the end of 2025, ETCS Level 2 operation with ATO GoA2 will begin on the S-Bahn main line. Once complete, the frequency of services will be ...
[45]
Siemens And Alstom Join Forces To Create A European Champion ...
Dec 14, 2017 · In March 1996 Eurotrain was a joint venture formed by Siemens VT (40 %) and GEC Alsthom (60 %) to market high speed rail technology in Asia.
[46]
[PDF] Near-bankruptcy of the Taiwan High Speed Rail Corporation
Project was thus made by the government in October 1996. ... technology platform of Eurotrain, a joint venture of General Electric Company (GEC)-Alsthom and ...
[47]
TGVweb - TGV Photos - Research - Railfaneurope.net
... Eurotrain joint venture to try to win the new Taiwanese high speed rail system. ... The train was tested up to 316 km/h on the German high speed line ...
[48]
June 1998 | Railway Gazette International
All Railway Gazette International articles in June 1998. All articles published this month. News · Transpatagónico study. 1 June 1998.Missing: demonstration | Show results with:demonstration
[49]
TGV Duplex - Railfaneurope.net
Mar 29, 1998 · The TGV Duplex is a two-level train designed to increase capacity on busy lines, with 545 seats, 45% more than a single-level TGV.Missing: 2 | Show results with:2
[50]
Eurotrain loses bid for injunction - Taipei Times
Feb 2, 2000 · Furious at losing the construction bid to the Mitsubishi Heavy Industries-led Shinkansen consortium, Eurotrain requested a court order in mid- ...
[51]
ASIA-PACIFIC | Eurotrain sues over Taiwan train deal - BBC News
Jan 13, 2000 · A European railway consortium has announced that it is sueing the Taiwan High Speed Rail Corporation in a Taipei court to challenge the ...
[52]
High-speed rail projects in China and Taiwan - ResearchGate
Aug 6, 2025 · A cross-case comparative study of high-speed rail projects in China and Taiwan was conducted to investigate the processes through which ...
[53]
2nd statement on Taiwan high speed rail link | Alstom
Jan 13, 2000 · This decision was made despite the fact that THSRC has a binding agreement to enter into a supply contract with EUROTRAIN.
[54]
Taiwan's High-speed Rail: It's Been a Rapid Learning Curve
Sep 26, 2007 · Second, the THSRC switched its core systems supplier three years into the project, changing from the Eurotrain Consortium to the Taiwan ...Missing: bid 1998
[55]
[PDF] Former President Lee's Support Decisive Factor behind Taiwan's ...
A Japanese consortium in December. 2000 won a lucrative contract worth. ¥332 billion (about US$2.8 billion) with Taiwan High Speed Rail Corp. (THSRC) for the ...
[56]
Alstom-Siemens files US$800m suit against THSRC - Taipei Times
Mar 21, 2001 · The Alstom-Siemens Eurotrain consortium has filed a US$800 million civil lawsuit claim against Taiwan High Speed Rail Corp (THSRC, 台灣高鐵) ...Missing: 2004 | Show results with:2004
[57]
Eurotrain fights back in Taiwan tussle | News - Railway Gazette
Mar 1, 2000 · Whether Eurotrain has any chance of winning back its lost deal is unclear. In mid-February further delays in signature of the main contract were ...
[58]
Taiwan High Speed Rail to compensate railway consortium
Nov 27, 2004 · The ICC issued an arbitration award on March 15, 2004, wherein THSRC was ordered to pay US$73.04 million in damages and interest to Eurotrain.Missing: Alstom | Show results with:Alstom
[59]
[PDF] High-speed Railways in Germany
Following the ICE 2, DB AG faced a major decision about whether to stay with ... and personal advisor to the President and CEO of DB. Eurotrain with double-decker ...