EBICAB: Difference between revisions
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{{Short description|Automatic train control systems}} |
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'''EBICab''' is a trademark registered by [[Alstom]] (former [[Bombardier_Transportation|Bombardier]]) for the equipment on board a train used as a part of an [[Automatic Train Control]] system. Three different families exist, which are technically unrelated. |
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== EBICab 500/600 == |
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These on-board systems uses pairs of [[balise]]s mounted on the sleepers. |
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The pairs of balises distinguish signals in one direction from the other direction with semicontinuous speed supervision, using a wayside to train punctual transmission using wayside transponders. |
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<ref>[https://www.jernbaneverket.no/Documents/Marked/Infrastrukturens%20egenskaper/590/T90-0502.pdf Jernbaneverket / INFRASTRUKTURENS EGENSKAPER, 2001-02-05]</ref> |
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EBICab 500 is Bombardier's implementation of the German [[Punktförmige_Zugbeeinflussung|PZB]], the train protection system widely used in [[Germany]], [[Austria]] and other countries, allowing operation up to 160 km/h. |
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EBICab 600 is Bombardier's implementation of the German [[Punktförmige_Zugbeeinflussung|PZB]] and [[Linienzugbeeinflussung|LZB]] as a combined [[European_Train_Control_System#Specific_Transmission_Modules|STM]]. The LZB is used on high-speed tracks in Germany, up to 300 km/h. |
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| ⚫ | EBICab 700 was originally derived from Ericsson's SLR system in Sweden. Most trains in Sweden and Norway use a similar on-board system, Ansaldo L10000 (more known as ATC-2) from Bombardier's competitor Ansaldo STS (now [[Hitachi Rail STS]]).<ref>{{Cite web|url=https:https://www.sjt.no/globalassets/02_jernbane/pdf-jernbane/regelverk/stm/vagledning-atc-installationer_i_fordon-v01.pdf|title=ATC-installationer i fordon|last=Sollander|first=Stefan|date=2008-04-18|website=[[Swedish Transport Agency]]|language=sv|type=PDF; 150 kB|access-date=2018-09-10}}</ref> ATC-2 was also developed in Sweden.<ref>[https://www.teknogram.se/links/lawson/lawson.html Teknogram Twenty Years of Safe Train Control in Sweden] {{webarchive|url=https://web.archive.org/web/20100826134339/https://www.teknogram.se/links/lawson/lawson.html |date=2010-08-26 }}</ref> |
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These on-board systems use pairs of [[balise]]s mounted on the sleepers. The pairs of balises distinguish signals in one direction from the other direction with semicontinuous speed supervision, using a wayside to train punctual transmission using wayside [[transponder]]s.<ref>[https://www.jernbaneverket.no/Documents/Marked/Infrastrukturens%20egenskaper/590/T90-0502.pdf Jernbaneverket / INFRASTRUKTURENS EGENSKAPER, 2001-02-05]{{Dead link|date=July 2019 |bot=InternetArchiveBot |fix-attempted=yes }}</ref> |
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[[Adif]]/[[Red Nacional de los Ferrocarriles Españoles|Renfe]], in [[Spain]], sometimes use the term [[Automatic Train Protection|ATP]] to refer to EBICAB 900, which is the first system on its network to provide Automatic Train Protection. |
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| ⚫ | EBICab comes in two versions, EBICab 700 in [[Sweden]], [[Norway]], [[Portugal]] and [[Bulgaria]] and EBICab 900 installed in the spanish Mediterranean Corridor ([[Velocity|v<sub>max</sub>]]= 220 km/h), and in [[Finland]] ({{langx|fi|Junakulunvalvonta}}) under the name '''ATP-VR/RHK'''. In [[Portugal]] it is known as '''Convel''' (the contraction of Controlo de Velocidade, meaning Speed Control). |
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| ⚫ | The EBICab 900 system uses wayside balises with signal encoders or series communications with electronic [[lookup table]], and on-board equipment on the train. The transmission of data occurs between the passive wayside balises (between 2 and 4 per signal) and the antenna installed under the train, which powers the balises when it passes over the balises. The coupling between the balise and the on-board antenna is inductive. |
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[[Adif]]/[[Renfe]], in [[Spain]], sometimes use the term [[Automatic Train Protection|ATP]] to refer to EBICAB 900, which is the first system on its network to provide Automatic Train Protection. The [[Manila MRT Line 3]] in the [[Philippines]] also uses the ATP term to refer to EBICAB 900.<ref>{{Cite report |author=Department of Transportation and Communications |date=March 2013 |title=MRT3 System Temporary Maintenance Provider – One (1) Year |url=https://dotr.gov.ph/images/Public_Bidding/Goods/2013/Rail/MRT3SystemMaintenanceProvider/final%20pbd_mrt3%20maintenance%20prov.pdf |access-date=2 March 2022 |archive-date=27 December 2021 |archive-url=https://web.archive.org/web/20211227211550/https://dotr.gov.ph/images/Public_Bidding/Goods/2013/Rail/MRT3SystemMaintenanceProvider/final%20pbd_mrt3%20maintenance%20prov.pdf |url-status=dead }}</ref> |
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=== Main Characteristics === |
=== Main Characteristics === |
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* Transponders operating in the ISM band at 27 MHz amplitude modulated for the clock pulses and impulse frequency of 50 kHz. |
* Transponders operating in the ISM band at 27 MHz amplitude modulated for the clock pulses and impulse frequency of 50 kHz. |
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* Transmission of data to trains at 4,5 MHz at 50 |
* Transmission of data to trains at 4,5 MHz at 50 kbit/s with 32 bit packets encoding 12 bits of information (EBICAB 700) or 255 bit packets encoding 180 bits of information (EBICab 900), including the necessary synchronisation bits. |
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* The signals are linked (concatenated), but the signs, for example, for warnings and speed, are not necessarily linked (concatenated); it is acceptable to have 50% of the transponders linked to be safe against failures. |
* The signals are linked (concatenated), but the signs, for example, for warnings and speed, are not necessarily linked (concatenated); it is acceptable to have 50% of the transponders linked to be safe against failures. |
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* The driver may input characteristics such as train identification, length, speed type, maximum speed, braking characteristics, and train pressure. |
* The driver may input characteristics such as train identification, length, speed type, maximum speed, braking characteristics, and train pressure. |
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* The driver receives visual indications such as speed limit, target speed, overspeed, ASFA Alarm, braking reset, Permission to Pass, alarm signals, braking warning, red or alphanumeric indications. |
* The driver receives visual indications such as speed limit, target speed, overspeed, ASFA Alarm, braking reset, Permission to Pass, alarm signals, braking warning, red or alphanumeric indications. |
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== Supervision == |
=== Supervision === |
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* Line velocity, as a function of line capacity and the vehicle's performance capabilities in situations of overspeed or the imposition of lower velocity for some types of trains. |
* Line velocity, as a function of line capacity and the vehicle's performance capabilities in situations of overspeed or the imposition of lower velocity for some types of trains. |
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=== Warnings === |
=== Warnings === |
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* Acoustic warning at excess of |
* Acoustic warning at excess of 5 km/h, service braking at excess of 10 km/h and emergency brake application at excess of 15 km/h |
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=== Differences === |
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== EBICab 2000 == |
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The EBICab 2000 is Bombardier's implementation of a [[European_Train_Control_System|ETCS]], operated in several European countries (Germany, [[Switzerland]], [[United Kingdom]], [[Belgium]], [[Netherlands]], [[Spain]], [[Sweden]], [[Poland]]). It can read [[Eurobalise|Eurobalises]] and can communicate by [[European_Train_Control_System#Euroradio|Euroradio]] with a [[European Train Control System#Radio Block Centre|RBC]]. |
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== See also == |
== See also == |
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* [[Advanced Civil Speed Enforcement System]] |
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* [[Automatic Train Protection]] |
* [[Automatic Train Protection]] |
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* [[European Train Control System]] |
* [[European Train Control System]] |
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== References == |
== References == |
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{{reflist}} |
{{reflist}} |
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*[https://www.coit.es/pub/ficheros/nap._entornos_ferroviarios_1ee28324.pdf?PHPSESSID=0c3b775a36c4f91146d6340a784feb42. Elementos Técnicos para la Gestión de Frecuencias en Espacios Complejos: Entornos Ferroviarios, 2002] |
* [https://web.archive.org/web/20110719032443/https://www.coit.es/pub/ficheros/nap._entornos_ferroviarios_1ee28324.pdf?PHPSESSID=0c3b775a36c4f91146d6340a784feb42. Elementos Técnicos para la Gestión de Frecuencias en Espacios Complejos: Entornos Ferroviarios, 2002] |
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* [https://eur-lex.europa.eu/legal-content/EN/ALL/?uri=CELEX:32006D0860 European Commission Decision 2006/860/EC of 7 November 2006 concerning a technical specification for interoperability relating to the control-command and signalling subsystem of the trans-European high speed rail system and modifying Annex A to Decision 2006/679/EC concerning the technical specification for interoperability relating to the control-command and signalling subsystem of the trans-European conventional rail system] (repealed on 25.01.2012) |
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* [https://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=CELEX:32002D0731:es:HTML Eurolex 32002D0731, Diario Oficial n° L 245 de 12/09/2002 p. 0037 - 0142] |
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* [https://tranvia.org/modules.php?op=modload&name=Forums_old&file=viewtopic&topic=4175&forum=1&start=0 252-045 en Tranvia.org, hilo ATP, en el Corredor Mediterráneo] |
* [https://web.archive.org/web/20120218215846/https://tranvia.org/modules.php?op=modload&name=Forums_old&file=viewtopic&topic=4175&forum=1&start=0 252-045 en Tranvia.org, hilo ATP, en el Corredor Mediterráneo] |
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<div class="boilerplate" style="clear:both; font-size: 90%; font-style: italic"> |
<div class="boilerplate" style="clear:both; font-size: 90%; font-style: italic"> |
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This article incorporates information from a [https://www.ferropedia.es/wiki/EBICAB '''Ferropedia''' article], published in [[Spanish language|Castilian]] under a Creative Commons Compartir-Igual 3.0 license.</div> |
This article incorporates information from a [https://www.ferropedia.es/wiki/EBICAB '''Ferropedia''' article] {{Webarchive|url=https://web.archive.org/web/20110430062502/https://www.ferropedia.es/wiki/EBICAB |date=2011-04-30 }}, published in [[Spanish language|Castilian]] under a Creative Commons Compartir-Igual 3.0 license.</div> |
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{{Railwaysignalling}} |
{{Railwaysignalling}} |
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{{Rail transport in Norway}} |
{{Rail transport in Norway}} |
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[[Category:Rail |
[[Category:Rail infrastructure in Bulgaria]] |
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[[Category: |
[[Category:Railway signalling in Finland]] |
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[[Category:Railway signaling in Norway]] |
[[Category:Railway signaling in Norway]] |
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[[Category: |
[[Category:Railway signalling in Spain]] |
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[[Category: |
[[Category:Railway signalling in Sweden]] |
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[[Category:Rail |
[[Category:Rail infrastructure in Portugal]] |
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[[Category:Train protection systems]] |
[[Category:Train protection systems]] |
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[[de:EBICAB]] |
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[[es:EBICAB]] |
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Latest revision as of 22:17, 7 November 2024
EBICab is a trademark registered by Alstom (former Bombardier) for the equipment on board a train used as a part of an Automatic Train Control system. Three different families exist, which are technically unrelated.
EBICab 500/600
[edit]EBICab 500 is Bombardier's implementation of the German PZB, the train protection system widely used in Germany, Austria and other countries, allowing operation up to 160 km/h.
EBICab 600 is Bombardier's implementation of the German PZB and LZB as a combined STM. The LZB is used on high-speed tracks in Germany, up to 300 km/h.
EBICab 700/900
[edit]EBICab 700 was originally derived from Ericsson's SLR system in Sweden. Most trains in Sweden and Norway use a similar on-board system, Ansaldo L10000 (more known as ATC-2) from Bombardier's competitor Ansaldo STS (now Hitachi Rail STS).[1] ATC-2 was also developed in Sweden.[2]
These on-board systems use pairs of balises mounted on the sleepers. The pairs of balises distinguish signals in one direction from the other direction with semicontinuous speed supervision, using a wayside to train punctual transmission using wayside transponders.[3]
Versions
[edit]EBICab comes in two versions, EBICab 700 in Sweden, Norway, Portugal and Bulgaria and EBICab 900 installed in the spanish Mediterranean Corridor (vmax= 220 km/h), and in Finland (Finnish: Junakulunvalvonta) under the name ATP-VR/RHK. In Portugal it is known as Convel (the contraction of Controlo de Velocidade, meaning Speed Control).
The EBICab 900 system uses wayside balises with signal encoders or series communications with electronic lookup table, and on-board equipment on the train. The transmission of data occurs between the passive wayside balises (between 2 and 4 per signal) and the antenna installed under the train, which powers the balises when it passes over the balises. The coupling between the balise and the on-board antenna is inductive.
In comparison with ASFA, a system which transmits only a maximum amount of data per frequency, EBICAB uses electronic lookup table, the amount of data transmitted is much larger.
Adif/Renfe, in Spain, sometimes use the term ATP to refer to EBICAB 900, which is the first system on its network to provide Automatic Train Protection. The Manila MRT Line 3 in the Philippines also uses the ATP term to refer to EBICAB 900.[4]
Main Characteristics
[edit]- Transponders operating in the ISM band at 27 MHz amplitude modulated for the clock pulses and impulse frequency of 50 kHz.
- Transmission of data to trains at 4,5 MHz at 50 kbit/s with 32 bit packets encoding 12 bits of information (EBICAB 700) or 255 bit packets encoding 180 bits of information (EBICab 900), including the necessary synchronisation bits.
- The signals are linked (concatenated), but the signs, for example, for warnings and speed, are not necessarily linked (concatenated); it is acceptable to have 50% of the transponders linked to be safe against failures.
- The driver may input characteristics such as train identification, length, speed type, maximum speed, braking characteristics, and train pressure.
- The driver receives visual indications such as speed limit, target speed, overspeed, ASFA Alarm, braking reset, Permission to Pass, alarm signals, braking warning, red or alphanumeric indications.
Supervision
[edit]- Line velocity, as a function of line capacity and the vehicle's performance capabilities in situations of overspeed or the imposition of lower velocity for some types of trains.
- Multiple objectives, including signaling information without wayside signals.
- The system can enforce permanent, temporary and emergency speed restrictions by using unlinked (concatenated) transponders.
- Stop Point.
- Dynamic braking profile.
- Status of the level crossing and landslide detectors.
- Maneuvers.
- Protection against wheel wear.
- Slip/Slide compensation.
- Authorization to pass a signal at Stop.
Warnings
[edit]- Acoustic warning at excess of 5 km/h, service braking at excess of 10 km/h and emergency brake application at excess of 15 km/h
- The operator may release service braking when the speed is below one of the speed limits (Normally below the speed limit + 10 km/h in Portugal).
Differences
[edit]The most important difference with EBICab 900, is that EBICab 700 can only transmit packets with 12 useful bits for a total of 32bits and allows up to 5 transponders per signal.
EBICab 2000
[edit]The EBICab 2000 is Bombardier's implementation of a ETCS, operated in several European countries (Germany, Switzerland, United Kingdom, Belgium, Netherlands, Spain, Sweden, Poland). It can read Eurobalises and can communicate by Euroradio with a RBC.
See also
[edit]References
[edit]- ^ Sollander, Stefan (2008-04-18). "ATC-installationer i fordon" (PDF). Swedish Transport Agency (PDF; 150 kB) (in Swedish). Retrieved 2018-09-10.
- ^ Teknogram Twenty Years of Safe Train Control in Sweden Archived 2010-08-26 at the Wayback Machine
- ^ Jernbaneverket / INFRASTRUKTURENS EGENSKAPER, 2001-02-05[permanent dead link]
- ^ Department of Transportation and Communications (March 2013). MRT3 System Temporary Maintenance Provider – One (1) Year (PDF) (Report). Archived from the original (PDF) on 27 December 2021. Retrieved 2 March 2022.
- Elementos Técnicos para la Gestión de Frecuencias en Espacios Complejos: Entornos Ferroviarios, 2002
- European Commission Decision 2006/860/EC of 7 November 2006 concerning a technical specification for interoperability relating to the control-command and signalling subsystem of the trans-European high speed rail system and modifying Annex A to Decision 2006/679/EC concerning the technical specification for interoperability relating to the control-command and signalling subsystem of the trans-European conventional rail system (repealed on 25.01.2012)
- 252-045 en Tranvia.org, hilo ATP, en el Corredor Mediterráneo
This article incorporates information from a Ferropedia article Archived 2011-04-30 at the Wayback Machine, published in Castilian under a Creative Commons Compartir-Igual 3.0 license.