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MTR Metro Cammell EMU (AC)
The East Rail line Metro Cammell EMU (also known as Mid-Life Refurbishment Train, ; or MLR Train) were a model of electric multiple unit built in 1980–1990 by Metro-Cammell for the original Kowloon–Canton Railway (now the East Rail line) in Hong Kong. The 29 sets were owned by and were originally operated by the Kowloon-Canton Railway Corporation (KCRC). They were operated by MTR Corporation (MTRC) after it MTR–KCR merger, merged with KCRC in 2007. Although MTR Metro Cammell EMU (DC), another set of EMU trains from the same manufacturer operate on some of MTR's own lines, there are some significant differences between the two models, with the Metro Cammell EMUs of the original MTR being known as the ''MTR Metro Cammell EMU (DC), M-Train''. The trains were delivered in several phases. The different phases of this series of train have entitled with different model numbers, including: 3094 stock, K01 stock, K03 stock and K05 stock. Regardless, all model numbers have an iden ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
MTR Metro Cammell EMU (DC)
The Metro-Cammell EMU (also known as M-Train or Modernisation Train, ) is the oldest type of electric multiple unit that operates on the MTR rapid transit railway system in Hong Kong. A total of 768 cars were built by Metro-Cammell in England (and its successor GEC-Alsthom, later known as Alstom) between 1977 and 1994, and refurbished from 1998 to 2001 by UGL Rail, United Goninan. Features Urban line stock The M-Train, along with the later MTR CNR Changchun EMU, C-Train, MTR CRRC Changchun EMU, TML C-train, MTR Hyundai Rotem EMU, R-train and ex-KCR stock, has five sets of double-leaf sliding doors on both sides of each car, to facilitate rapid boarding and exiting. This is opposed to the MTR Rotem EMU, K-Train and MTR Adtranz–CAF EMU, AdTranz-CAF trains, which use plug doors. They are currently operating primarily on the Tsuen Wan line and Island line (MTR), Island line but are also operating on the Tseung Kwan O line alongside newer rolling stock. Each car is width over b ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Westcode
IXYS Corporation is an American company based in Milpitas, California. IXYS focuses on power semiconductors, radio-frequency (RF) power semiconductors, and digital and analog integrated circuits (ICs). History Dr. Nathan Zommer founded IXYS Corporation in 1983 in Silicon Valley, Santa Clara, California. IXYS was originally a fabless power semiconductor device company. In 1989, IXYS provided power MOSFETs for the General Motors EV1. IXYS provided high-power IGBTs for the KTX-II high-speed train. In 2001, the company acquired the British semiconductor manufacturer Westcode. In December 2009, IXYS Corporation announced that it will buy Zilog, which is now the company's wholly owned subsidiary. In July 2013, IXYS Corporation finished acquiring Samsung Electronics' 4- and 8-bit microcontroller business, and the 4- and 8-bit microcontrollers acquired from Samsung will be offered by Zilog, Inc. In August 2017, IXYS Corporation was acquired by Littelfuse Inc Littelfuse, Inc. is ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Electric Multiple Unit
An electric multiple unit or EMU is a multiple-unit train consisting of self-propelled carriages using electricity as the motive power. An EMU requires no separate locomotive, as electric traction motors are incorporated within one or a number of the carriages. An EMU is usually formed of two or more semi-permanently coupled carriages. However, electrically powered single-unit railcars are also generally classed as EMUs. The vast majority of EMUs are passenger trains but versions also exist for carrying mail. EMUs are popular on intercity, commuter, and suburban rail networks around the world due to their fast acceleration and pollution-free operation, and are used on most rapid-transit systems. Being quieter than diesel multiple units (DMUs) and locomotive-hauled trains, EMUs can operate later at night and more frequently without disturbing nearby residents. In addition, tunnel design for EMU trains is simpler as no provision is needed for exhausting fumes, although retrofitting ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Tightlock Coupling
Type H Tightlock couplers are a variety of Janney coupler, typically used on North American mainline passenger rail cars. They have mechanical features that reduce slack in normal operation and prevent telescoping in derailments, yet remain compatible with other Janney types used by North American freight railroads. Like all Janney couplers, the Tightlock is "semi-automatic". The couplers automatically lock when cars are pushed together, but workers must go between cars to hook up the air lines for the pneumatic brakes and connect cables for head-end power and other communications. To separate cars, a worker must use a lever to move the locking pin that keeps the coupler closed. In Europe, some operators experimented with making fully automatic tightlock couplers by adding integral pneumatic and electric connectors, but these connections proved unreliable, and most have switched to the more common fully automatic Scharfenberg coupler. Janney Type H Tightlock coupler stand ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Automatic Train Protection
Automatic train protection (ATP) is the generic term for train protection systems that continually check that the speed of a train is compatible with the permitted speed allowed by signalling, including automatic stop at certain signal aspects. If it is not, ATP activates an Emergency brake (train), emergency brake to stop the train. See also * Advanced Civil Speed Enforcement System * Anti Collision Device * Automatic Warning System * Automatische treinbeïnvloeding (ATB) * Automatic Train Protection (United Kingdom), British Rail's ATP system * Continuous Automatic Warning System (CAWS) * EBICAB * European Train Control System (ETCS) * Kavach_-_Indian_Railways, Kavach * Positive Train Control (PTC) * Punktförmige Zugbeeinflussung (PZB) * Train Protection & Warning System * Train Warning System (India), Train Warning System * Transmission Voie-Machine (TVM) References {{rail-transport-stub Train protection systems ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Automatic Train Operation
Automatic train operation (ATO) is a method of operating trains automatically where the driver is not required or is required for supervision at most. Alternatively, ATO can be defined as a subsystem within the automatic train control, which performs any or all of functions like programmed stopping, speed adjusting, door operation, and similar otherwise assigned to the train operator. The degree of automation is indicated by the Grade of Automation (GoA), up to GoA4 in which the train is automatically controlled without any staff on board. On most systems for lower grades of automation up to GoA2, there is a driver present to mitigate risks associated with failures or emergencies. Driverless automation is primarily used on automated guideway transit systems where it is easier to ensure the safety due to isolated tracks. Fully automated trains for mainline railways are an area of research. The first driverless experiments in the history of train automation date back to 1920 ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Trainguard MT CBTC
Trainguard MT is a communication-based train control (CBTC) developed by Siemens Transportation Systems (ex ''Matra Transport international'', and now integrated into Siemens Mobility) which allows fully automated circulation of rapid transit trains, and thanks to moving block system, less time between trains. Metro lines using Trainguard MT * Algiers Metro * Barcelona Metro Line 9 * Budapest Metro Line M2 and Line M4 * Copenhagen S-train * London Elizabeth Line (Abbey Wood to Paddington) * Jabodebek LRT (Open in July 2023) * Guangfo Line * Guangzhou Metro Line 4 and Line 5 * MTR East Rail Line * Nanjing Metro ** S3 Line ** Line 7 * New York City Subway (see also Signaling of the New York City Subway#Automation) * Paris Métro Line 14, under the name of "SAET" * São Paulo Metro Line 4 * Seoul Metropolitan Subway The Seoul Metropolitan Subway () is a urban rail transit, metropolitan railway system consisting of 23 rapid transit, Medium-capacity rail transport ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Siemens
Siemens AG ( ) is a German multinational technology conglomerate. It is focused on industrial automation, building automation, rail transport and health technology. Siemens is the largest engineering company in Europe, and holds the position of global market leader in industrial automation and industrial software. The origins of the conglomerate can be traced back to 1847 to the ''Telegraphen Bau-Anstalt von Siemens & Halske'' established in Berlin by Werner von Siemens and Johann Georg Halske. In 1966, the present-day corporation emerged from the merger of three companies: Siemens & Halske, Siemens-Schuckert, and Siemens-Reiniger-Werke. Today headquartered in Munich and Berlin, Siemens and its subsidiaries employ approximately 320,000 people worldwide and reported a global revenue of around €78 billion in 2023. The company is a component of the DAX and Euro Stoxx 50 stock market indices. As of December 2023, Siemens is the second largest German company by market ca ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Automatic Train Operation
Automatic train operation (ATO) is a method of operating trains automatically where the driver is not required or is required for supervision at most. Alternatively, ATO can be defined as a subsystem within the automatic train control, which performs any or all of functions like programmed stopping, speed adjusting, door operation, and similar otherwise assigned to the train operator. The degree of automation is indicated by the Grade of Automation (GoA), up to GoA4 in which the train is automatically controlled without any staff on board. On most systems for lower grades of automation up to GoA2, there is a driver present to mitigate risks associated with failures or emergencies. Driverless automation is primarily used on automated guideway transit systems where it is easier to ensure the safety due to isolated tracks. Fully automated trains for mainline railways are an area of research. The first driverless experiments in the history of train automation date back to 1920 ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Automatic Train Protection
Automatic train protection (ATP) is the generic term for train protection systems that continually check that the speed of a train is compatible with the permitted speed allowed by signalling, including automatic stop at certain signal aspects. If it is not, ATP activates an Emergency brake (train), emergency brake to stop the train. See also * Advanced Civil Speed Enforcement System * Anti Collision Device * Automatic Warning System * Automatische treinbeïnvloeding (ATB) * Automatic Train Protection (United Kingdom), British Rail's ATP system * Continuous Automatic Warning System (CAWS) * EBICAB * European Train Control System (ETCS) * Kavach_-_Indian_Railways, Kavach * Positive Train Control (PTC) * Punktförmige Zugbeeinflussung (PZB) * Train Protection & Warning System * Train Warning System (India), Train Warning System * Transmission Voie-Machine (TVM) References {{rail-transport-stub Train protection systems ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
Transmission Balise-locomotive
Transmission balise-locomotive (Dutch: Transmissie Baken Locomotief; TBL; English: "Beacon-to-Locomotive Transmission") is a train protection system used in Belgium and (until 2021) on Hong Kong's East Rail line. Versions TBL1 The TBL system is designed to stop a train passing a red signal, with operating speeds of up to 160 km/h. In 2006 13% of the Belgium train network used the original TBL system, introduced in 1982. The system requires the train driver to manually acknowledge a warning when passing a double yellow signal (similar to the Memor/Crocodile (train protection system), Le Crocodile system), as well as stopping a train automatically if it passes a red signal. TBL1+ TBL1+ began to be installed on the Belgian rail network in 2006, with full conversion to the system expected by 2012. The system is a development of TBL1, but uses Eurobalises, providing compatibility for later reconfiguration to an ETCS system. An additional safety measure is the addition of an ... [...More Info...] [...Related Items...] OR: [Wikipedia] [Google] [Baidu] |
