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Linienzugbeeinflussung (or LZB) is a
cab signalling Cab signaling is a railway safety system that communicates track status and condition information to the cab, crew compartment or driver's compartment of a locomotive, railcar or multiple unit. The information is continually updated giving an ...
and
train protection system A train protection system is a railway technical installation to ensure safe operation in the event of human error. Development Train stops The earliest systems were train stops, as still used by the New York City Subway, the Toronto subway, t ...
used on selected
German German(s) may refer to: * Germany (of or related to) **Germania (historical use) * Germans, citizens of Germany, people of German ancestry, or native speakers of the German language ** For citizens of Germany, see also German nationality law **Ger ...
and Austrian railway lines as well as on the
AVE ''Alta Velocidad Española'' (''AVE'') is a service of high-speed rail in Spain operated by Renfe, the Spanish national railway company, at speeds of up to . As of December 2021, the Spanish high-speed rail network, on part of which the AVE s ...
and some commuter rail lines in
Spain , image_flag = Bandera de España.svg , image_coat = Escudo de España (mazonado).svg , national_motto = ''Plus ultra'' (Latin)(English: "Further Beyond") , national_anthem = (English: "Royal March") , i ...
. The system was mandatory where trains were allowed to exceed speeds of in Germany and in Spain. It is also used on some slower railway and urban
rapid transit Rapid transit or mass rapid transit (MRT), also known as heavy rail or metro, is a type of high-capacity public transport generally found in urban areas. A rapid transit system that primarily or traditionally runs below the surface may be c ...
lines to increase capacity. The
German German(s) may refer to: * Germany (of or related to) **Germania (historical use) * Germans, citizens of Germany, people of German ancestry, or native speakers of the German language ** For citizens of Germany, see also German nationality law **Ger ...
Linienzugbeeinflussung translates to ''continuous train control'', literally: ''linear train influencing''. It is also called ''linienförmige Zugbeeinflussung''. LZB is deprecated and will be replaced with
European Train Control System The European Train Control System (ETCS) is the signalling and control component of the European Rail Traffic Management System (ERTMS). It is a replacement for legacy train protection systems and designed to replace the many incompatible s ...
(ETCS) between 2023 and 2030. It is referenced by
European Union Agency for Railways The European Union Agency for Railways (ERA) is an agency of the European Union (EU) that sets mandatory requirements for European railways and manufacturers in the form of Technical Specifications for Interoperability (TSI), which apply to the ...
(ERA) as a Class B ''train protection system'' in ''National Train Control'' (NTC). Driving cars mostly have to replace classical control logic to ETCS ''Onboard Units'' (OBU) with common '' Driver Machine Interface'' (DMI). Because high performance trains are often not scrapped or reused on second order lines, special ''Specific Transmission Modules'' (STM) for LZB were developed for further support of LZB installation.


Overview

In Germany the standard distance from a distant
signal In signal processing, a signal is a function that conveys information about a phenomenon. Any quantity that can vary over space or time can be used as a signal to share messages between observers. The ''IEEE Transactions on Signal Processing'' ...
to its home signal is . On a train with strong brakes, this is the
braking distance Braking distance refers to the distance a vehicle will travel from the point when its brakes are fully applied to when it comes to a complete stop. It is primarily affected by the original speed of the vehicle and the coefficient of friction be ...
from 160 km/h. In the 1960s Germany evaluated various options to increase speeds, including increasing the distance between distant and home signals, and cab signalling. Increasing the distance between the home and distant signals would decrease capacity. Adding another aspect would make the signals harder to recognize. In either case, changes to the conventional signals wouldn't solve the problem of the difficulty of seeing and reacting to the signals at higher speeds. To overcome these problems, Germany chose to develop continuous cab signalling. The LZB cab signalling system was first demonstrated in 1965, enabling daily trains at the International Transport Exhibition in Munich to run at 200 km/h. The system was further developed throughout the 1970s, then released on various lines in Germany in the early 1980s and on German, Spanish, and Austrian high-speed lines in the 1990s with trains running up to . Meanwhile, additional capabilities were built into the system. LZB consists of equipment on the line as well as on the trains. A 30–40 km segment of track is controlled by a LZB control centre.Signalling System for German High Speed Lines, by H. Uebel, Standard Elektrik Lorenz A.G., Stuttgart, Germany, presented in the "1989 International Conference on Main Line Railway Electrification", p 36-39. The control centre computer receives information about occupied blocks from
track circuit A track circuit is an electrical device used to prove the absence of a train on rail tracks to signallers and control relevant signals. An alternative to track circuits are axle counters. Principles and operation The basic principle behind t ...
s or
axle counter An axle counter is a system used in railway signalling to detect the clear or occupied status of a section of track between two points. The system generally consists of a wheel sensor (one for each end of the section) and an evaluation unit for c ...
s and locked routes from interlockings. It is programmed with the track configuration including the location of points, turnouts, gradients, and curve speed limits. With this, it has sufficient information to calculate how far each train may proceed and at what speed. The control centre communicates with the train using two conductor cables that run between the tracks and are crossed every 100 m. The control centre sends data packets, known as telegrams, to the vehicle which give it its movement authority (how far it can proceed and at what speed) and the vehicle sends back data packets indicating its configuration, braking capabilities, speed, and position. The train's on-board computer processes the packets and displays the following information to the driver: * Current speed: locally derived from speed sensing equipment - shown with a standard speedometer * Permitted speed: maximum allowed speed now - shown with a red line or triangle on the outside of the speedometer * Target speed: maximum speed at a certain distance - shown with LED numbers at the bottom of the speedometer * Target distance: distance for target speed - shown with LED bars showing up to 4000 m, with numbers for longer distances If there is a long distance free in front of the train the driver will see the target speed and permitted speed equal to the maximum line speed, with the distance showing the maximum distance, between 4 km and 13.2 km depending on the unit, train, and line. As the train approaches a speed restriction, such as one for a curve or turnout, LZB will sound a buzzer and display the distance to and speed of the restriction. As the train continues the target distance will decrease. As the train nears the speed restriction the permitted speed will start to decrease, ending up at the target speed at the restriction. At that point the display will change to the next target. The LZB system treats a red signal or the beginning of a block containing a train as a speed restriction of 0 speed. The driver will see the same sequence as approaching a speed restriction except the target speed is 0. LZB includes
Automatic Train Protection Automatic train protection (ATP) is a type of train protection system which continually checks 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 ...
. If the driver exceeds the permitted speed plus a margin LZB will activate the buzzer and an overspeed light. If the driver fails to slow the train the LZB system can apply the brakes itself, bringing the train to a halt if necessary. LZB also includes an Automatic Train Operation system known as AFB (Automatische Fahr- und Bremssteuerung, automatic driving and braking control), which enables the driver to let the computer drive the train on auto-pilot, automatically driving at the maximum speed currently allowed by the LZB. In this mode, the driver only monitors the train and watches for unexpected obstacles on the tracks. Finally, the LZB vehicle system includes the conventional Indusi (or PZB) train protection system for use on lines not equipped with LZB.


History


Choice of cab signalling

In the 1960s, the German railways wanted to increase the speeds of some of their railway lines. One issue in doing so is signalling. German signals are placed too close to allow high-speed trains to stop between them, and signals may be difficult for train drivers to see at high speeds. Germany uses distant signals placed before the main signal. Trains with conventional brakes, decelerating at , can stop from in that distance. Trains with strong brakes, usually including electromagnetic
track brake A magnetic track brake (Mg brake) is a brake for rail vehicles. It consists of brake magnets, pole shoes, a suspension, a power transmission and, in the case of mainline railroads, a track rod. When current flows through the magnet coil, the ma ...
s, decelerating at can stop from and are allowed to travel that speed. However, even with strong brakes and the same deceleration, a train travelling would require to stop, exceeding the signalling distance. Furthermore, as the energy dissipated at a given acceleration increases with speed, higher speeds may require lower decelerations to avoid overheating the brakes, further increasing the distance. One possibility to increase speed would be to increase the distance between the main and distant signal. But, this would require longer blocks, which would decrease line capacity for slower trains. Another solution would be to introduce multiple aspect signalling. A train travelling at would see a "slow to 160" signal in the first block and then a stop signal in the 2nd block. Introducing multi-aspect signalling would require substantial reworking for the existing lines, as additional distant signals would need to be added onto long blocks and the signals reworked on shorter ones. In addition, it wouldn't solve the other problem with high-speed operation, the difficulty of seeing signals as a train rushes past, especially in marginal conditions such as rain, snow, and fog. Cab signalling solves these problems. For existing lines it can be added on top of the existing signalling system with little, if any, modifications to the existing system. Bringing the signals inside the cab makes it easy for the driver to see them. On top of these, the LZB cab signalling system has other advantages: * The driver is immediately aware of signalling changes. ** This allows a driver to stop slowing down if a signal at the end of a block improves, saving energy and time. ** It also allows the control centre to instantly signal stop in the case of dangerous conditions such as a derailment or avalanche. * The driver can electronically "see" a long distance (up to 13 km) down the track, allowing them to drive the train more smoothly. * A train following a slower train can "see" the slower train well in advance, coasting or using regenerative braking to slow and thereby save energy. * It can signal a variety of speeds. (Conventional German signals in the 1960s could only signal for turnouts. Modern conventional German signals can signal any increment, but LZB can signal even finer increments.) * It allows the track to be divided up into a large number of small blocks if necessary to increase capacity. * It enables a more capable
Automatic Train Protection Automatic train protection (ATP) is a type of train protection system which continually checks 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 ...
system. * It enables the AFB Automatic Train Operation system. Given all of these advantages, in the 1960s, the German railways chose to go with LZB cab signalling instead of increasing the signal spacing or adding aspects.


Development

The first prototype system was developed by German Federal Railways in conjunction with
Siemens Siemens AG ( ) is a German multinational conglomerate corporation and the largest industrial manufacturing company in Europe headquartered in Munich with branch offices abroad. The principal divisions of the corporation are ''Industry'', '' ...
and tested in 1963. It was installed in Class 103 locomotives and presented in 1965 with runs on trains to the International Exhibition in Munich. From this Siemens developed the LZB 100 system and introduced it on the Munich-Augsburg-Donauwörth and Hanover-Celle-Uelzen lines, all in Class 103 locomotives. Continuous Automatic Train Control and Cab Signalling with the LZB 80, by H. Sporleder, Siemens, AG, published in the "1989 International Conference on Main Line Railway Electrification", p 40-46. The system was overlaid on the existing signal system. All trains would obey the standard signals, but LZB-equipped trains could run faster than normal as long as the track was clear ahead for a sufficient distance. LZB 100 could display up to in advance. The original installations were all hard-wired logic. However, as the 1970s progressed Standard Elektrik Lorenz (SEL) developed the computer-based LZB L72 central controllers and equipped other lines with them. By the late 1970s, with the development of microprocessors, the 2-out-of-3 computers could be applied to on-board equipment. Siemens and SEL jointly developed the LZB 80 on-board system and equipped all locomotives and trains that travel over plus some heavy haul locomotives. By 1991, Germany replaced all LZB 100 equipment with LZB 80/L 72. When Germany built its high-speed lines, beginning with the Fulda-Würzburg segment that started operation in 1988, it incorporated LZB into the lines. The lines were divided into blocks about long, but instead of having a signal for every block, there are only fixed signals at switches and stations, with approximately between them. If there was no train for the entire distance the entry signal would be green. If the first block was occupied it would be red as usual. Otherwise, if the first block was free and a LZB train approached the signal would be dark and the train would proceed on LZB indications alone. The system has spread to other countries. The Spanish equipped their first high-speed line, operating at , with LZB. It opened in 1992 and connects
Madrid Madrid ( , ) is the capital and most populous city of Spain. The city has almost 3.4 million inhabitants and a metropolitan area population of approximately 6.7 million. It is the second-largest city in the European Union (EU), and ...
, Cordoba, and
Seville Seville (; es, Sevilla, ) is the capital and largest city of the Spanish autonomous community of Andalusia and the province of Seville. It is situated on the lower reaches of the River Guadalquivir, in the southwest of the Iberian Peninsula ...
. In 1987 the Austrian railways introduced LZB into their systems, and with the 23 May 1993 timetable change introduced EuroCity trains running on a -long section of the
Westbahn WESTbahn Management GmbH (a subsidiary of ''RAIL Holding AG'') is an open access railway company operating express train services on Austria's Western Railway (also known as Westbahn) since 11 December 2011. The French railway company SNCF has a ...
between
Linz Linz ( , ; cs, Linec) is the capital of Upper Austria and third-largest city in Austria. In the north of the country, it is on the Danube south of the Czech border. In 2018, the population was 204,846. In 2009, it was a European Capital of ...
and
Wels Wels (; Central Bavarian: ''Wös'') is a city in Upper Austria, on the Traun River near Linz. It is the county seat of Wels-Land, and with a population of approximately 60,000, the eighth largest city in Austria. Geography Wels is in the H ...
. Siemens continued to develop the system, with "Computer Integrated Railroading", or "CIR ELKE", lineside equipment in 1999. This permitted shorter blocks and allowed speed restrictions for switches to start at the switch instead of at a block boundary. See CIR ELKE below for details.


Development timeline


Line equipment


Cable loops

The LZB control centre communicates with the train using conductor cable loops. Loops can be as short as 50 metres long, as used at the entrance and exit to LZB controlled track, or as long as . Where the loops are longer than they are crossed every . At the crossing the signal phase angle is changed by 180° reducing electrical interference between the track and the train as well as long-distance radiation of the signal. The train detects this crossing and uses it to help determine its position. Longer loops are generally fed from the middle rather than an end. One disadvantage of very long loops is that any break in the cable will disable LZB transmission for the entire section, up to . Thus, newer LZB installations, including all high-speed lines, break the cable loops into physical cables. Each cable is fed from a repeater, and all of the cables in a section will transmit the same information.


LZB route centre (central controller)

The core of the LZB route centre, or central controller, consists of a 2-of-3 computer system with two computers connected to the outputs and an extra for standby. Each computer has its own power supply and is in its own frame. All 3 computers receive and process inputs and interchange their outputs and important intermediate results. If one disagrees it is disabled and the standby computer takes its place. The computers are programmed with fixed information from the route such as speed limits, gradients, and the location of block boundaries, switches, and signals. They are linked by LAN or cables to the interlocking system from which they receive indications of switch positions, signal indications, and track circuit or axle counter occupancy. Finally, the route centre's computers communicates with controlled trains via the cable loops previously described.


Other equipment

* ''Repeaters'': Repeaters connect individual long loop sections to the primary communication links, strengthening the signal from the route centre and sending the vehicle responses. * ''Fixed loops'': Fixed loops, typically about long, are placed at the ends of the controlled section. They transmit fixed telegrams which allow entering trains to receive an address. * ''Isolation cabinets'': A long communication link will consist of multiple individual cables connected in "isolation cabinets" which serve to prevent the low-frequency voltage which is coupled from the catenary from accumulating on the cable. * ''Signs'': Signs indicate the LZB block boundaries (if not at a signal) and the entrance and exit from the LZB controlled area.


Vehicle equipment

The vehicle equipment in the original LZB80 designed consisted of: * ''Computers'': The on-board equipment centred around a 2-of-3 computer system. The original LZB 80 design used 8085 microprocessors programmed in
assembly language In computer programming, assembly language (or assembler language, or symbolic machine code), often referred to simply as Assembly and commonly abbreviated as ASM or asm, is any low-level programming language with a very strong correspondence be ...
. The programs were interrupt driven, with interrupts generated by a 70 ms clock, the track receivers and transmitters, the serial interface, and also within the program itself. Interrupts triggered comparison and output programs. Peripheral equipment was arranged around the computers with all interfaces electrically separated and all grounds tied to the cabinet frame which was tied to the vehicle chassis. * ''Redundant power supply'': The computers and peripheral equipment were supplied with a redundant power supply based on two identical voltage transformers. Each was capable of supplying the power necessary for all of the equipment. They were normally alternately switched, but if one failed the other would take over. On-board batteries could also supply temporary power. * ''Odometry'': The vehicle speed and distance travelled is measured on two independent channels by two pulse generators mounted on different axles. Each is linked to a separate micro-controller based unit used to correct any inaccuracies. The central logic polls the two units as well as an accelerometer, compares the values and checks for plausibility. * ''Receiver'': Two pairs of receiving
antennas In radio engineering, an antenna or aerial is the interface between radio waves propagating through space and electric currents moving in metal conductors, used with a transmitter or receiver. In transmission, a radio transmitter supplies a ...
are each fed to selective, self-regulating
amplifiers An amplifier, electronic amplifier or (informally) amp is an electronic device that can increase the magnitude of a signal (a time-varying voltage or current). It may increase the power significantly, or its main effect may be to boost the v ...
whose output is fed to a
demodulator Demodulation is extracting the original information-bearing signal from a carrier wave. A demodulator is an electronic circuit (or computer program in a software-defined radio) that is used to recover the information content from the modulated ...
and then a serial-parallel transformer. The received telegrams are then fed byte by byte to the central logic computer. The receivers also indicate transition points and whether the signal is present. * ''Transmitter'': The 2 out putting computers feed serial-parallel transformers. They are compared after conversion, and transmission is only allowed if they are identical. Only one signal is actually transmitted, with the transmitter transmitting the two signals at 56 kHz with the signals displaced by a 90° phase angle. * '' Emergency brake connection'': The computers are connected to the brake via a relay. A computer command or loss of current will release the air from the brake pipe applying the emergency brake. * ''Indusi horn connection'': The horn signalling the driver is also connected by a relay. * ''
Serial interface In computing, a serial port is a serial communication interface through which information transfers in or out sequentially one bit at a time. This is in contrast to a parallel port, which communicates multiple bits simultaneously in parallel. T ...
'': A serial interface is used to connect the rest of the components, including the driver inputs, display unit, logger, and the automatic drive and brake control (AFB) to the computers. Telegrams are transmitted cyclically both from and to the computers. * ''Driver input unit'': The driver inputs train related data such as the type of braking (passenger/freight), braking potential, maximum train speed, and train length on the driver interface unit. This is then displayed to the driver to verify that it is correct. * ''Modular cab display (MFA)'': The modular cab display shows the relevant speeds and distances to the driver as described in the
overview Overview may refer to: * Overview article, an artícle that summarizes the current state of understanding on a topic * Overview map, generalised view of a geographic area See also * Summary (disambiguation) * Outline (list) * ''A Brief Overvie ...
. * ''Automatic drive/brake control'': When enabled by the driver, the automatic drive/brake control unit (AFB) will drive the train following the permitted speed. When not operating on an LZB equipped line, i.e. under Indusi operation, the AFB acts mainly as a "
cruise control Cruise control (also known as speed control, cruise command, autocruise, or tempomat) is a system that automatically controls the speed of a motor vehicle. The system is a servomechanism that takes over the throttle of the car to maintain a ste ...
", driving according to the speed set by the driver. The equipment in newer trains is similar, although the details may vary. For example, some vehicles use radar rather than accelerometers to aid in their odometry. The number of antennas may vary by vehicle. Finally, some newer vehicles use a full-screen computer generated "Man-machine interface" (MMI) display rather than the separate dials of the "Modular cab display" (MFA).


Operation


Telegrams

LZB operates by exchanging telegrams between the central controller and the trains. The central controller transmits a "call telegram" using
Frequency-shift keying Frequency-shift keying (FSK) is a frequency modulation scheme in which digital information is transmitted through discrete frequency changes of a carrier signal. The technology is used for communication systems such as telemetry, weather ball ...
(FSK) signalling at 1200 bits per second on a 36 kHz ± 0.4 kHz. The train replies with a "response telegram" at 600 bits per second at 56 kHz ± 0.2 kHz. Directive 96/48/EC, Interoperability of the trans-European high speed rail system, Draft Technical Specification for Interoperability, Part 3, annexes to the TSI, "Control-Command and Signalling" Sub-System, 19.05.2006.


Call telegram format

Call telegrams are 83.5 bits long: * Start sequence: Synchronization: 5.5 bits, Start element + baker code: 3 bits * Address: Section ID: A-E, A1-A3, Location: 1-127 or 255-128 * Vehicle information: Travel direction: up/down, Braking type: passenger/freight, Brake curve number: 1-10, A-B * Braking information: Distance to brake application: * Nominal distance XG: , Target information, Distance: , Speed: * Display information, Signal information: 3 bits, Additional information: 5 bits * Auxiliary information: Group identity: 1-4 - Indicates response type required, Line identity: new high-speed/normal main lines, Central controller type: LZB 100/72 *
Cyclic redundancy check A cyclic redundancy check (CRC) is an error-detecting code commonly used in digital networks and storage devices to detect accidental changes to digital data. Blocks of data entering these systems get a short ''check value'' attached, based on t ...
(CRC): 8 bits One might note that there is no "train identification" field in the telegram. Instead, a train is identified by position. See Zones and Addressing for more details.


Response telegram format

There are 4 types of response telegrams, each 41 bits long. The exact type of telegram a train sends depends on the "Group identity" in the call telegram. The most common type of telegram is type 1, which is used to signal a train's position and speed to the central controller. It contains the following fields: * Synchronization and start sequence: 6 bits * Group identity: 1-4 - Indicates response type * Vehicle location acknowledgement: number of zones advanced = ±0, ±1, ±2 * Location within zone: (in increments) * Braking type: passenger/freight * Brake curve number: 16 possible brake curves * Actual speed: * Operational and diagnostic information: 5 bits * Cyclic redundancy check (CRC): 7 bits The other telegrams are used primarily when a train enters the LZB controlled section. They all start with the same synchronization and start sequence and a "group identity" to identify the telegram type, and end with the CRC. Their data fields vary as follows: * Type 2: Vehicle location acknowledgement, location within zone, braking type, brake curve number, maximum train speed, train length * Type 3: Railway, train number * Type 4: Locomotive/train series, serial number, train length


Entry into LZB, zones and addressing

Before entering an LZB controlled section the driver must enable the train by entering the required information on the Driver Input Unit and enabling LZB. When enabled the train will light a "B" light. A controlled section of track is divided into up to 127 zones, each long. The zones are consecutively numbered, counting up from 1 in one direction and down from 255 in the opposite. When a train enters a LZB controlled section of track, it will normally pass over a fixed loop that transmits a "change of section identification" (BKW) telegram. This telegram indicates to the train the section identification number as well as the starting zone, either 1 or 255. The train sends back an acknowledgement telegram. At that time the LZB indications are switched on, including the "Ü" light to indicate that LZB is running. From that point on the train's location is used to identify a train. When a train enters a new zone it sends a response telegram with the "vehicle location acknowledgement" filed indicating that it has advanced into a new zone. The central controller will then use the new zone when addressing the train in the future. Thus a trains address will gradually increase or decrease, depending on its direction, as it travels along the track. A train identifies that it has entered a new zone by either detecting the cable transposition point in the cable or when it has travelled . A train can miss detecting up to 3 transposition points and still remain under LZB control. The procedure for entering LZB controlled track is repeated when a train transitions from one controlled section to another. The train receives a new "change of section identification" telegram and gets a new address. Until the train knows its address it will ignore any telegrams received. Thus, if a train doesn't properly enter into the controlled section it won't be under LZB control until the next section.


Speed signalling

The main task of LZB is signalling to the train the speed and distance it is allowed to travel. It does this by transmitting periodic call telegrams to each train one to five times per second, depending on the number of trains present. Four fields in the call telegram are particularly relevant: * Target distance. * Target speed. * Nominal stopping distance, known as "XG" (See below). * Distance to brake application point. The target speed and location are used to display the target speed and distance to the driver. The train's permitted speed is calculated using the trains braking curve, which can vary by train type, and the XG location, which is the distance from the start of the zone that is used to address the train. If the train is approaching a red signal or the beginning of an occupied block the location will match the location of the signal or block boundary. The on-board equipment will calculate the permitted speed at any point so that the train, decelerating at the deceleration indicated by its braking curve, will stop by the stopping point. A train will have a parabolic braking curve as follows: : V_ = \sqrt where: * decel = deceleration * dist = distance from beginning of zone Where a train is approaching a speed restriction the control centre will transmit a packet with an XG location set to a point behind the speed restriction such that a train, decelerating based on its braking curve, will arrive at the correct speed at the start of the speed restriction. This, as well as deceleration to zero speed, is illustrated with the green line in the "Permitted and supervised speed calculation" figure. The red line in the figure shows the "monitoring speed", which is the speed which, if exceeded, the train will automatically apply the emergency brakes. When running at constant speed this is above the permitted speed for transited emergency braking (until speed is reduced) or above the permitted speed for continuous emergency braking. When approaching a stopping point, the monitoring speed follows a braking curve similar to the permitted speed, but with a higher deceleration, that will bring it to zero at the stopping point. When approaching a speed restriction, the monitoring speed braking curve intersects the speed restriction point at above the constant speed. Deceleration rates are more conservative with LZB than with conventional German signalling. A typical passenger train braking curve might have a "permitted speed" deceleration of and a "monitoring speed" deceleration of 42% higher than the deceleration for the permitted speed, but lower than the required to stop from in used in conventional signalling. The ICE3, which has a full service braking deceleration of below , dropping to by , has a LZB target speed deceleration of only to , between , and at higher speeds."The Linear Eddy-Current Brake of the ICE 3" by Dr.-Ing. Wolf-Dieter Meler-Credner and Dipl.-Ing. Johannes Gräber, published in Railway Technical Review (RTR), April, 2003 In between the permitted speed and monitoring speed is a warning speed, normally above the permitted speed. If the train exceeds that speed LZB will flash the "G" light on the train's display and sound a horn.


Leaving LZB

About before the end of the LZB controlled section the central controller will send a telegram to announce the end of LZB control. The train will flash the "ENDE" light which the driver must acknowledge within 10 seconds. The display will normally give the distance and target speed at the end of the controlled section, which will depend on the signal at that point. When the train reaches the end of LZB control the "Ü" and "ENDE" lights go off and the conventional Indusi (or PZB) system takes over automatic train protection.


Special operating modes

Special conditions not covered by the full LZB system or failures can put LZB into one of the special operating modes.


Crossover to opposite track

As a train approaches a crossover to a normally opposite direction track the display will flash the "E/40" light. The driver confirms the indication and the permitted speed drops following the braking curve to . When the crossover section is reached the displays are switched off and the driver can proceed through the crossover at .


Drive by sight signal

German signalling systems have a "drive by sight" signal that consists of 3 white lights forming a triangle with one light at the top. This signal, labelled "Zs 101", is placed with a fixed line side signal and, when lighted, permits the driver to pass a fixed red or defective signal and drive by sight to the end of the interlocking no faster than . When approaching such a signal in LZB territory the "E/40" light will be lit until before the signal, then the "E/40" will go dark and "V40" will flash. The "V40" signal indicates the ability to drive by sight.


Transmission failure

If data exchange is interrupted, the trains distance measurement system fails, or the train fails to detect 4 or more cable transposition points the LZB system will go into a failure state. It will light the "Stör" indicator and then flash "Ü". The driver must acknowledge the indications within 10 seconds. The driver must slow the train to no more than or lower; the exact speed depends on the backup signalling system in place.


Extensions


CIR ELKE-I

CIR-ELKE is an improvement on the basic LZB system. It uses the same physical interface and packets as standard LZB but upgrades its software, adding capabilities and modifying some procedures. It is designed to increase line capacity by up to 40% and to further shorten travel times. The name is an abbreviation of the English/German project title ''Computer Integrated Railroading - Erhöhung der Leistungsfähigkeit im Kernnetz der Eisenbahn'' (Computer Integrated Railroading - Increase Capacity in the Core Railway Network). Being an extension of LZB it is also called LZB-CIR-ELKE further abbreviated into LZB-CE. CIR-ELKE includes the following improvements: * ''Shorter blocks'' - CIR-ELKE blocks can be as short as , or even shorter for S-Bahn systems. The
Munich S-Bahn The Munich S-Bahn (german: S-Bahn München) is an Railway electrification system, electric rail transit system in Munich, Germany. "S-Bahn" is the German abbreviation for ''Stadtschnellbahn'' (literally, "urban rapid rail"), and the Munich S-Bahn ...
system has blocks as short as at the beginning of the platform, allowing a train to pull into the platform as another is leaving and making it capable of running 30 trains per hour. * ''Speed changes at any location'' - The standard LZB system required that speed restrictions start at block boundaries. With CIR-ELKE speed restrictions can start at any point, such as at a turnout. This means a train doesn't have to slow down as soon, increasing average speeds. * ''Telegram evaluation changes'' - In order to increase safety on a system with shorter intervals between trains CIR-ELKE sends identical telegrams twice. The train will only act on a telegram if it receives two identical valid telegrams. In order to compensate for the increase in the number of telegrams CIR-ELKE sends telegrams to non-moving trains less frequently.


CIR ELKE-II

The original LZB system was designed for permitted speeds up to and
gradients In vector calculus, the gradient of a scalar-valued differentiable function of several variables is the vector field (or vector-valued function) \nabla f whose value at a point p is the "direction and rate of fastest increase". If the grad ...
up to 1.25%. The
Cologne–Frankfurt high-speed rail line The Cologne-Frankfurt high-speed railway (german: Schnellfahrstrecke Köln–Rhein/Main) is a railway line in Germany, connecting the cities of Cologne and Frankfurt. Its route follows the Bundesautobahn 3 for the greater part, and currently the ...
was designed for operation and has 4% gradients; thus, it needed a new version of LZB, and CIR ELKE-II was developed for this line. CIR ELKE-II has the following features: * Maximum speed of . * Support for braking curves with higher decelerations and curves taking into account the actual altitude profile of the distance ahead instead of assuming the maximum down slope of the section. This makes operation on 4% gradients practical. * Support for target distances of up to to a stopping or speed restriction point. If there is no such point within that distance the system will display a target distance of and a target speed of the line speed. * Support for enabling the
Eddy current brake An eddy current brake, also known as an induction brake, electric brake or electric retarder, is a device used to slow or stop a moving object by generating eddy currents and thus dissipating its kinetic energy as heat. Unlike friction brakes, wh ...
of the ICE3 trains. By default, the eddy current brake is enabled for emergency braking only. With CE2 it is possible to enable it for service braking, too. * Signalling voltage or phase changes. * Audible warning signals 8 seconds before the point of braking, or 4 seconds for the Munich S-Bahn, instead of before or with a speed difference done previously.


Malfunctions

The LZB system has been quite safe and reliable; so much so that there have been no collisions on LZB equipped lines because of the failure of the LZB system. However, there have been some malfunctions that could have potentially resulted in accidents. They are: * On 29 June 1991, after a disturbance, the train driver had the LZB system off and passed a stop signal with two trains in the tunnel at Jühnde on the Hanover-Würzburg high-speed line. * On 29 June 2001, there was nearly a serious accident at the
Oschatz Oschatz () is a town in the district Nordsachsen, in Saxony, Germany. It is located 60 km east of Leipzig and 60 km west of Dresden. Geography Site and climate Oschatz lies in the Saxon Lowland and is located on the river Dölln ...
crossover on the Leipzig-Dresden railway line. The crossover was set to diverging with a speed limit but the LZB system displayed a limit. The driver of ICE 1652 recognized the diverging signal and managed to slow down to before the crossing and the train did not derail. A software error in the LZB computer was suspected as the cause. * A similar near-accident occurred on 17 November 2001 in
Bienenbüttel Bienenbüttel is a free municipality in the district of Uelzen, in Lower Saxony, Germany. It is situated on the river Ilmenau, approximately north of Uelzen, and southeast of Lüneburg. Bienenbüttel is a part of the Hamburg Metropolitan Regi ...
on the Hamburg-Hanover rail line. In order to pass a failed freight train an ICE train crossed over to the opposite track going through a crossover that was rated at . The suspected cause was the faulty execution of a change to the interlocking system where the crossover speed was increased from . Without that speed restriction the LZB system did continue to show the pass-through line speed on the in-cab display - the train driver applied the brakes on recognizing the line-side signal lights set to diverge and the train did not derail. * On 9 April 2002 on the Hanover-Berlin high-speed rail line, a fault in the LZB line centre computer brought four LZB controlled trains to a stop with two trains in each line direction being halted in the same signalling block (Teilblockmodus - divided block control). When the computer was rebooted it signalled to the trains in front and to the following trains. The drivers of the following trains did not proceed however - one driver saw the train in front of him and the other driver double-checked with the operations centre which had warned him prior to departure, so two possible collisions were averted. As a consequence of this incident, the two mainline train operators (
DB Cargo DB Cargo (previously known as Railion and DB Schenker Rail) is an international transport and logistics company. It is responsible for all of the rail freight transport activities of the German railway company Deutsche Bahn (the DB Group) both ...
and DB Passenger Transport) issued an instruction to their drivers to be especially cautious during periods of LZB outage when the system is running in divided block mode. The cause turned out to be a software error.


Equipped lines


DB (Germany)

The following lines of
Deutsche Bahn The (; abbreviated as DB or DB AG) is the national railway company of Germany. Headquartered in the Bahntower in Berlin, it is a joint-stock company ( AG). The Federal Republic of Germany is its single shareholder. describes itself as the se ...
are equipped with LZB, allowing for speeds in excess of 160 km/h (providing the general suitability of the track): *
Augsburg Augsburg (; bar , Augschburg , links=https://en.wikipedia.org/wiki/Swabian_German , label=Swabian German, , ) is a city in Swabia, Bavaria, Germany, around west of Bavarian capital Munich. It is a university town and regional seat of the ' ...
- ''
Dinkelscherben Dinkelscherben is a municipality in the district of Augsburg in Bavaria in Germany. Fleinhausen Fleinhausen is a village of the municipality of Dinkelscherben in the western part of the Bavarian district of Augsburg in Germany. Located on the w ...
'' -
Ulm Ulm () is a city in the German state of Baden-Württemberg, situated on the river Danube on the border with Bavaria. The city, which has an estimated population of more than 126,000 (2018), forms an urban district of its own (german: link=no, ...
(km 7.3 - km 28.5) *
Berlin Berlin ( , ) is the capital and largest city of Germany by both area and population. Its 3.7 million inhabitants make it the European Union's most populous city, according to population within city limits. One of Germany's sixteen constitue ...
- ''
Nauen Nauen is a small town in the Havelland district, in Brandenburg, Germany. It is chiefly known for Nauen Transmitter Station, the world's oldest preserved radio transmitting installation. Geography Nauen is situated within the Havelland Luch glac ...
'' - '' Glöwen'' - ''
Wittenberge Wittenberge () is a town of eighteen thousand people on the middle Elbe in the district of Prignitz, Brandenburg, Germany. Geography Wittenberge is situated at the right (north-eastern) bank of the middle Elbe at its confluence with the Stepe ...
'' - '' Hagenow Land'' - ''
Rothenburgsort Rothenburgsort () is a quarter (german: Stadtteil) in the Hamburg-Mitte borough of the Free and Hanseatic city of Hamburg in northern Germany. In December 2020, the population was 9,043. History Geography The quarter is situated in the south-e ...
'' -
Hamburg (male), (female) en, Hamburger(s), Hamburgian(s) , timezone1 = Central (CET) , utc_offset1 = +1 , timezone1_DST = Central (CEST) , utc_offset1_DST = +2 , postal ...
(km 16.5 - km 273.1) *
Bremen Bremen (Low German also: ''Breem'' or ''Bräm''), officially the City Municipality of Bremen (german: Stadtgemeinde Bremen, ), is the capital of the German state Free Hanseatic City of Bremen (''Freie Hansestadt Bremen''), a two-city-state consis ...
-
Hamburg (male), (female) en, Hamburger(s), Hamburgian(s) , timezone1 = Central (CET) , utc_offset1 = +1 , timezone1_DST = Central (CEST) , utc_offset1_DST = +2 , postal ...
(km 253.9 - km 320.1) *
Dortmund Dortmund (; Westphalian nds, Düörpm ; la, Tremonia) is the third-largest city in North Rhine-Westphalia after Cologne and Düsseldorf, and the eighth-largest city of Germany, with a population of 588,250 inhabitants as of 2021. It is the la ...
- Hamm (Westf) -
Bielefeld Bielefeld () is a city in the Ostwestfalen-Lippe Region in the north-east of North Rhine-Westphalia, Germany. With a population of 341,755, it is also the most populous city in the administrative region (''Regierungsbezirk'') of Detmold and the ...
(except for the station of Hamm) *
Frankfurt am Main Frankfurt, officially Frankfurt am Main (; Hessian: , "Frank ford on the Main"), is the most populous city in the German state of Hesse. Its 791,000 inhabitants as of 2022 make it the fifth-most populous city in Germany. Located on its na ...
- ''
Gelnhausen Gelnhausen () is a town, and the capital of the Main-Kinzig-Kreis, in Hesse, Germany. It is located approximately 40 kilometers east of Frankfurt am Main, between the Vogelsberg mountains and the Spessart range at the river Kinzig. It is one of ...
'' -
Fulda Fulda () (historically in English called Fuld) is a town in Hesse, Germany; it is located on the river Fulda and is the administrative seat of the Fulda district (''Kreis''). In 1990, the town hosted the 30th Hessentag state festival. History ...
(km 24.8 - km 40.3) *
Hannover Hanover (; german: Hannover ; nds, Hannober) is the capital and largest city of the German States of Germany, state of Lower Saxony. Its 535,932 (2021) inhabitants make it the List of cities in Germany by population, 13th-largest city in Germa ...
- ''
Stadthagen Stadthagen () is the capital of the district of Schaumburg, in Lower Saxony, Germany. It is situated approximately 20 km east of Minden and 40 km west of Hanover. The city consists of the districts Brandenburg, Enzen-Hobbensen, Hörkamp-L ...
'' -
Minden Minden () is a middle-sized town in the very north-east of North Rhine-Westphalia, Germany, the greatest town between Bielefeld and Hanover. It is the capital of the district (''Kreis'') of Minden-Lübbecke, which is part of the region of Detm ...
(km 4.4 - km 53.4) *
Hannover Hanover (; german: Hannover ; nds, Hannober) is the capital and largest city of the German States of Germany, state of Lower Saxony. Its 535,932 (2021) inhabitants make it the List of cities in Germany by population, 13th-largest city in Germa ...
- ''
Celle Celle () is a town and capital of the district of Celle, in Lower Saxony, Germany. The town is situated on the banks of the river Aller, a tributary of the Weser, and has a population of about 71,000. Celle is the southern gateway to the Lü ...
'' -
Uelzen Uelzen (; officially the ''Hanseatic Town of Uelzen'', German: ''Hansestadt Uelzen'', , Low German ''Ülz’n'') is a town in northeast Lower Saxony, Germany, and capital of the county of Uelzen. It is part of the Hamburg Metropolitan Region, a ...
- ''
Lüneburg Lüneburg (officially the ''Hanseatic City of Lüneburg'', German: ''Hansestadt Lüneburg'', , Low German ''Lümborg'', Latin ''Luneburgum'' or ''Lunaburgum'', Old High German ''Luneburc'', Old Saxon ''Hliuni'', Polabian ''Glain''), also calle ...
'' -
Hamburg (male), (female) en, Hamburger(s), Hamburgian(s) , timezone1 = Central (CET) , utc_offset1 = +1 , timezone1_DST = Central (CEST) , utc_offset1_DST = +2 , postal ...
(km 4.0 - km 166.5) *
Hannover Hanover (; german: Hannover ; nds, Hannober) is the capital and largest city of the German States of Germany, state of Lower Saxony. Its 535,932 (2021) inhabitants make it the List of cities in Germany by population, 13th-largest city in Germa ...
- ''
Göttingen Göttingen (, , ; nds, Chöttingen) is a college town, university city in Lower Saxony, central Germany, the Capital (political), capital of Göttingen (district), the eponymous district. The River Leine runs through it. At the end of 2019, t ...
'' - '' Kassel-Wilhelmshöhe'' - ''
Fulda Fulda () (historically in English called Fuld) is a town in Hesse, Germany; it is located on the river Fulda and is the administrative seat of the Fulda district (''Kreis''). In 1990, the town hosted the 30th Hessentag state festival. History ...
'' - ''
Würzburg Würzburg (; Main-Franconian: ) is a city in the region of Franconia in the north of the German state of Bavaria. Würzburg is the administrative seat of the ''Regierungsbezirk'' Lower Franconia. It spans the banks of the Main River. Würzburg is ...
'' (km 4.2 - km 325.6) *
Karlsruhe Karlsruhe ( , , ; South Franconian: ''Kallsruh'') is the third-largest city of the German state (''Land'') of Baden-Württemberg after its capital of Stuttgart and Mannheim, and the 22nd-largest city in the nation, with 308,436 inhabitants. ...
- ''
Achern Achern (; gsw, label= Low Alemannic, Achre) is a town in Western Baden-Württemberg, Germany. It is located approximately 18 km southwest of Baden-Baden and 19 km northeast of Offenburg. Achern is the fourth largest town in the distric ...
'' - ''
Offenburg Offenburg ("open borough" - coat of arms showing open gates; Low Alemannic German, Low Alemmanic: ''Offäburg'') is a city located in the state of Baden-Württemberg, Germany. With nearly 60,000 inhabitants (2019), it is the largest city and the ad ...
'' - ''
Kenzingen Kenzingen () is a town in the district of Emmendingen, in Baden-Württemberg, Germany. It is situated on the river Elz, 23 km north of Freiburg Freiburg im Breisgau (; abbreviated as Freiburg i. Br. or Freiburg i. B.; Low Alemannic: ...
'' - '' Leutersberg'' - ''
Weil am Rhein Weil am Rhein (High Alemannic: ''Wiil am Rhii'') is a German town and commune. It is on the east bank of the River Rhine, and extends to the point at which the Swiss, French and German borders meet. It is the most southwesterly town in Germany an ...
'' - Basel Bad. Bf. (km 102.2 - km 270.6) * '' Köln'' -
Aachen Aachen ( ; ; Aachen dialect: ''Oche'' ; French and traditional English: Aix-la-Chapelle; or ''Aquisgranum''; nl, Aken ; Polish: Akwizgran) is, with around 249,000 inhabitants, the 13th-largest city in North Rhine-Westphalia, and the 28th- ...
(km 1,9 - km 41,8) * Köln - ''
Düsseldorf Düsseldorf ( , , ; often in English sources; Low Franconian and Ripuarian: ''Düsseldörp'' ; archaic nl, Dusseldorp ) is the capital city of North Rhine-Westphalia, the most populous state of Germany. It is the second-largest city in th ...
'' -
Duisburg Duisburg () is a city in the Ruhr metropolitan area of the western German state of North Rhine-Westphalia. Lying on the confluence of the Rhine and the Ruhr rivers in the center of the Rhine-Ruhr Region, Duisburg is the 5th largest city in Nor ...
(km 6.7 - km 37.3 and km 40.1 - km 62.2; Düsseldorf main station is not equipped) * Köln - ''
Troisdorf Troisdorf () is a city in the Rhein-Sieg-Kreis (district), in North Rhine-Westphalia, Germany. Geography Troisdorf is located approximately 22 kilometers south of Cologne and 13 kilometers north east of Bonn. Division of the city Troisdorf consi ...
'' - ''
Montabaur Montabaur () is a town and the district seat of the Westerwaldkreis in Rhineland-Palatinate, Germany. At the same time, it is also the administrative centre of the ''Verbandsgemeinde'' of Montabaur – a kind of collective municipality – to w ...
'' -
Limburg a.d. Lahn Limburg an der Lahn (officially abbreviated ''Limburg a. d. Lahn'') is the district seat of Limburg-Weilburg in Hesse, Germany. Geography Location Limburg lies in western Hessen between the Taunus and the Westerwald on the river Lahn. The to ...
-
Frankfurt am Main Frankfurt, officially Frankfurt am Main (; Hessian: , "Frank ford on the Main"), is the most populous city in the German state of Hesse. Its 791,000 inhabitants as of 2022 make it the fifth-most populous city in Germany. Located on its na ...
(km 8.7 - km 172.6) *
Leipzig Leipzig ( , ; Upper Saxon: ) is the most populous city in the German state of Saxony. Leipzig's population of 605,407 inhabitants (1.1 million in the larger urban zone) as of 2021 places the city as Germany's eighth most populous, as wel ...
- ''
Wurzen Wurzen () is a town in the Leipzig district, in Saxony, Germany. It is situated on the river Mulde, here crossed by two bridges, 25 km east of Leipzig, by rail N.E. of Leipzig on the main line via Riesa to Dresden. It has a cathedral datin ...
'' -
Dresden Dresden (, ; Upper Saxon: ''Dräsdn''; wen, label=Upper Sorbian, Drježdźany) is the capital city of the German state of Saxony and its second most populous city, after Leipzig. It is the 12th most populous city of Germany, the fourth larg ...
(km 3.6 - km 59.5) * Lengerich (Westf) - Münster (Westf) * Lehrte -
Stendal The Hanseatic City of Stendal () is a town in Saxony-Anhalt, Germany. It is the capital of the Stendal District and the unofficial capital of the Altmark region. Geography Situated west of the Elbe valley, the Stendal town centre is located s ...
-
Berlin-Spandau Spandau () is a locality (''Ortsteil'') of Berlin in the homonymous borough (''Bezirk'') of Spandau. The historic city is situated, for the most part, on the western banks of the Havel river. As of 2020 the estimated population of Spandau was 39, ...
*
Mannheim Mannheim (; Palatine German: or ), officially the University City of Mannheim (german: Universitätsstadt Mannheim), is the second-largest city in the German state of Baden-Württemberg after the state capital of Stuttgart, and Germany's 2 ...
-
Karlsruhe Karlsruhe ( , , ; South Franconian: ''Kallsruh'') is the third-largest city of the German state (''Land'') of Baden-Württemberg after its capital of Stuttgart and Mannheim, and the 22nd-largest city in the nation, with 308,436 inhabitants. ...
*
Mannheim Mannheim (; Palatine German: or ), officially the University City of Mannheim (german: Universitätsstadt Mannheim), is the second-largest city in the German state of Baden-Württemberg after the state capital of Stuttgart, and Germany's 2 ...
- ''
Vaihingen an der Enz Vaihingen an der Enz is a town located between Stuttgart and Karlsruhe, in southern Germany, on the western periphery of the Stuttgart Region. Vaihingen is situated on the river Enz, and has a population of around 30,000. The former district-cap ...
'' -
Stuttgart Stuttgart (; Swabian: ; ) is the capital and largest city of the German state of Baden-Württemberg. It is located on the Neckar river in a fertile valley known as the ''Stuttgarter Kessel'' (Stuttgart Cauldron) and lies an hour from the ...
(km 2.1 - km 99.5) *
München Munich ( ; german: München ; bar, Minga ) is the capital and most populous city of the German state of Bavaria. With a population of 1,558,395 inhabitants as of 31 July 2020, it is the third-largest city in Germany, after Berlin and Ha ...
- ''
Augsburg Augsburg (; bar , Augschburg , links=https://en.wikipedia.org/wiki/Swabian_German , label=Swabian German, , ) is a city in Swabia, Bavaria, Germany, around west of Bavarian capital Munich. It is a university town and regional seat of the ' ...
'' -
Donauwörth Donauwörth () is a town and the capital of the Donau-Ries district in Swabia, Bavaria, Germany. It is said to have been founded by two fishermen where the rivers Danube (Donau) and Wörnitz meet. The city is part of the scenic route called "Roman ...
(km 9,2 - km 56.3 and km 2.7 - km 39.8; Augsburg main station is not equipped) *
Nürnberg Nuremberg ( ; german: link=no, Nürnberg ; in the local East Franconian dialect: ''Nämberch'' ) is the second-largest city of the German state of Bavaria after its capital Munich, and its 518,370 (2019) inhabitants make it the 14th-largest ci ...
-
Allersberg Allersberg is a municipality in the district of Roth, in Bavaria, Germany Germany,, officially the Federal Republic of Germany, is a country in Central Europe. It is the second most populous country in Europe after Russia, and the ...
- ''
Kinding Kinding is a municipality in the district of Eichstätt in Bavaria in Germany Germany,, officially the Federal Republic of Germany, is a country in Central Europe. It is the second most populous country in Europe after Russia, and t ...
'' -
Ingolstadt Ingolstadt (, Austro-Bavarian: ) is an independent city on the Danube in Upper Bavaria with 139,553 inhabitants (as of June 30, 2022). Around half a million people live in the metropolitan area. Ingolstadt is the second largest city in Upper Bav ...
-Nord (ABS: km 97.9 - km 91.6; NBS: km 9.0 - km 88.7) *
Nürnberg Nuremberg ( ; german: link=no, Nürnberg ; in the local East Franconian dialect: ''Nämberch'' ) is the second-largest city of the German state of Bavaria after its capital Munich, and its 518,370 (2019) inhabitants make it the 14th-largest ci ...
- '' Neustadt an der Aisch'' -
Würzburg Würzburg (; Main-Franconian: ) is a city in the region of Franconia in the north of the German state of Bavaria. Würzburg is the administrative seat of the ''Regierungsbezirk'' Lower Franconia. It spans the banks of the Main River. Würzburg is ...
(km 34.8 - km 62.7) *
Osnabrück Osnabrück (; wep, Ossenbrügge; archaic ''Osnaburg'') is a city in the German state of Lower Saxony. It is situated on the river Hase in a valley penned between the Wiehen Hills and the northern tip of the Teutoburg Forest. With a population ...
-
Bremen Bremen (Low German also: ''Breem'' or ''Bräm''), officially the City Municipality of Bremen (german: Stadtgemeinde Bremen, ), is the capital of the German state Free Hanseatic City of Bremen (''Freie Hansestadt Bremen''), a two-city-state consis ...
(km 139.7 - km 232.0) *
Paderborn Paderborn (; Westphalian: ''Patterbuorn'', also ''Paterboärn'') is a city in eastern North Rhine-Westphalia, Germany, capital of the Paderborn district. The name of the city derives from the river Pader and ''Born'', an old German term for t ...
-
Lippstadt Lippstadt () is a town in North Rhine-Westphalia, Germany. It is the largest town within the district of Soest. Lippstadt is situated about 60 kilometres east of Dortmund, 40 kilometres south of Bielefeld and 30 kilometres west of Paderborn. Ge ...
- '' Soest'' - Hamm (Westf) (Strecke 1760: km 125.2 - km 180.8; Strecke 2930: km 111.5 - km 135.6) *
Zeppelinheim Neu-Isenburg is a town in Germany, located in the Offenbach district of Hesse. It is part of the Frankfurt Rhein-Main urban area and has a population of 38,204 (2020). The town is known nowadays mainly for its regionally used shopping centre, th ...
bei Frankfurt/Main -
Mannheim Mannheim (; Palatine German: or ), officially the University City of Mannheim (german: Universitätsstadt Mannheim), is the second-largest city in the German state of Baden-Württemberg after the state capital of Stuttgart, and Germany's 2 ...
Note: ''italics'' indicate the physical location of an LZB control centre.


ÖBB (Austria)

The West railway (
Vienna en, Viennese , iso_code = AT-9 , registration_plate = W , postal_code_type = Postal code , postal_code = , timezone = CET , utc_offset = +1 , timezone_DST ...
Salzburg Salzburg (, ; literally "Salt-Castle"; bar, Soizbuag, label=Bavarian language, Austro-Bavarian) is the List of cities and towns in Austria, fourth-largest city in Austria. In 2020, it had a population of 156,872. The town is on the site of the ...
) is equipped with LZB in three sections: *
St. Pölten ST, St, or St. may refer to: Arts and entertainment * Stanza, in poetry * Suicidal Tendencies, an American heavy metal/hardcore punk band * Star Trek, a science-fiction media franchise * Summa Theologica, a compendium of Catholic philosophy ...
Ybbs an der Donau Ybbs an der Donau () (short: Ybbs) is a town in Austria. It was established in 1317. Throughout the town, from the intersection of the important trade routes and along the Danube the town has preserved a site that already had great economic importa ...
(km 62.4–km 108.6) * Amstetten
St. Valentin St. Valentin (also referred to as ''Sankt Valentin'') is the most westerly town in the district of Amstetten in Lower Austria in Austria Austria, , bar, Östareich officially the Republic of Austria, is a country in the southern pa ...
(km 125.9–km 165.0) *
Linz Linz ( , ; cs, Linec) is the capital of Upper Austria and third-largest city in Austria. In the north of the country, it is on the Danube south of the Czech border. In 2018, the population was 204,846. In 2009, it was a European Capital of ...
Attnang-Puchheim Attnang-Puchheim is a town in Austria, located in the Vöcklabruck district, lying between the cities Vöcklabruck and Schwanenstadt. Its partner city is the city of Puchheim in Bavaria, Germany. Geography Attnang-Puchheim is centered in the ' ...
(km 190.5–km 241.6)


RENFE (Spain)

*
Madrid Madrid ( , ) is the capital and most populous city of Spain. The city has almost 3.4 million inhabitants and a metropolitan area population of approximately 6.7 million. It is the second-largest city in the European Union (EU), and ...
- '' Córdoba'' -
Sevilla Seville (; es, Sevilla, ) is the capital and largest city of the Spain, Spanish autonomous communities of Spain, autonomous community of Andalusia and the province of Seville. It is situated on the lower reaches of the Guadalquivir, River Gua ...
(9 centres / 480 km), operational since 1992. Since 2004, the terminus Madrid Atocha is also equipped with LZB. In November 2005, a branch line to Toledo was opened. (20 km). *
Cercanías Madrid Cercanías Madrid is the commuter rail service that serves Madrid, the capital of Spain, and its metropolitan area. It is operated by Cercanías Renfe, the commuter rail division of Renfe, the former monopoly of rail services in Spain. Its to ...
line C5 from
Humanes Humanes is a Municipalities of Spain, municipality of Spain in the province of Guadalajara (province), Guadalajara, an autonomous community of Castilla-La Mancha, with an area of 48.98 km² (18.91 mi²), population of 1,272 (2004 estimat ...
via Madrid Atocha to Móstoles-El Soto, operational since 1995. It is 45 km long with two LZB centres and 76 Series 446 vehicles. * All of the
Euskotren Euskotren, formally known as Basque Railways ( eu, Eusko Trenbideak, es, Ferrocarriles Vascos), is a public railway company controlled by the Basque Government and officially established in 1982 to operate several narrow gauge railways inside ...
network with the exception of the
Euskotren Tranbia Euskotren Tranbia is the brand under which the tramway networks in the cities of Vitoria-Gasteiz and Bilbao (both in the Basque Country, Spain) are run. The system in Bilbao started operations in 2002, and the one in Vitoria-Gasteiz in 2008. It ...
tramways.


United Kingdom

A modified version of LZB is installed on the Chiltern Mainline as Chiltern ATP.


Non-mainline uses

In addition to mainline railways, versions of the LZB system are also used in suburban (S-Bahn) railways and subways.


Dusseldorf, Duisburg, Krefeld, Mülheim an der Ruhr

Tunnels in the
Düsseldorf Düsseldorf ( , , ; often in English sources; Low Franconian and Ripuarian: ''Düsseldörp'' ; archaic nl, Dusseldorp ) is the capital city of North Rhine-Westphalia, the most populous state of Germany. It is the second-largest city in th ...
and
Duisburg Stadtbahn The Duisburg Stadtbahn is a light rail (german: Stadtbahn) network forming part of the larger Rhine-Ruhr Stadtbahn system. It is the centrepiece of the public transport system in Duisburg, a city in the federal state of North Rhine-Westphalia, ...
(light rail) systems, and some tunnels of the
Essen Stadtbahn The Essen Stadtbahn (german: Stadtbahn Essen) is a light rail (Stadtbahn) network in Essen and the two neighbouring towns of Mülheim an der Ruhr and Gelsenkirchen in the German state of North Rhine Westphalia. It forms part of the Rhine-Ruhr S ...
around the
Mülheim an der Ruhr Mülheim, officially Mülheim an der Ruhr () and also described as ''"City on the River"'', is a city in North Rhine-Westphalia in Germany. It is located in the Ruhr Area between Duisburg, Essen, Oberhausen and Ratingen. It is home to many compan ...
area are equipped with LZB.


Vienna (Wien)

With the exception of line 6, the entire
Vienna U-Bahn The Vienna U-Bahn (german: U-Bahn Wien), where ''U-Bahn'' is an abbreviation of the German term ''Untergrundbahn'' ( en, underground railway), is a rapid transit system serving Vienna, Austria. With the September 2017 opening of the , five-stati ...
is equipped with LZB since it was first built and includes the capability of automatic driving with the operator monitoring the train.


Munich

The
Munich U-Bahn The Munich U-Bahn (german: U-Bahn München) is an electric rail rapid transit network in Munich, Germany. The system began operation in 1971, and is operated by the municipally owned Münchner Verkehrsgesellschaft (MVG; Munich Transport Company) ...
was built with LZB control. During regular daytime operations the trains are automatically driven with the operator simply starting the train. Stationary signals remain dark during that time. In the evenings from 9:00 p.m. until end of service and on Sundays the operators drive the trains manually according to the stationary signals in order to remain in practice. There are plans to automate the placement and reversal of empty trains. The
Munich S-Bahn The Munich S-Bahn (german: S-Bahn München) is an Railway electrification system, electric rail transit system in Munich, Germany. "S-Bahn" is the German abbreviation for ''Stadtschnellbahn'' (literally, "urban rapid rail"), and the Munich S-Bahn ...
uses LZB on its core mainline tunnel section (Stammstrecke).


Nuremberg

The
Nuremberg U-Bahn The Nuremberg U-Bahn is a rapid transit system run by '' Verkehrs-Aktiengesellschaft Nürnberg'' (VAG; Nuremberg Transport Corporation), which itself is a member of the ''Verkehrsverbund Großraum Nürnberg'' (VGN; Greater Nuremberg Transport Net ...
U3 line uses LZB for fully automatic (driverless) operation. The system was jointly developed by
Siemens Siemens AG ( ) is a German multinational conglomerate corporation and the largest industrial manufacturing company in Europe headquartered in Munich with branch offices abroad. The principal divisions of the corporation are ''Industry'', '' ...
and VAG Nuremberg and is the first system where driverless trains and conventional trains share a section of line. The existing, conventionally driven U2 line trains shares a segment with the automatic U3 line trains. Currently, an employee still accompanies the automatically driven trains, but later the trains will travel unaccompanied. After several years of delays, the final three-month test run was successfully completed on April 20, 2008, and the operating licence granted on April 30, 2008. A few days later the driverless trains started operating with passengers, first on Sundays and public holidays, then weekdays at peak hours, and finally after the morning rush hour which has a tight sequence of U2 trains. The official opening ceremony for the U3 line was held on June 14, 2008 in the presence of the Bavarian Prime Minister and Federal Minister of Transport, the regular operation began with the schedule change on 15 June 2008. The Nuremberg U-bahn plans to convert U2 to automatic operation in about a year.


London

The
Docklands Light Railway The Docklands Light Railway (DLR) is an automated light metro system serving the redeveloped Docklands area of London, England and provides a direct connection between London's two major financial districts, Canary Wharf and the City of Londo ...
in east London uses the
SelTrac SelTrac is a digital railway signalling technology used to automatically control the movements of rail vehicles. It was the first fully automatic moving-block signalling system to be commercially implemented. What is now branded as SelTrac wa ...
technology which was derived from LZB to run automated trains. The trains are accompanied by an employee who closes the doors and signals the train to start, but then is mainly dedicated to customer service and ticket control. In case of failure the train can be driven manually by the on train staff.


See also

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Automatic Train Protection Automatic train protection (ATP) is a type of train protection system which continually checks 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 ...
*
Train protection system A train protection system is a railway technical installation to ensure safe operation in the event of human error. Development Train stops The earliest systems were train stops, as still used by the New York City Subway, the Toronto subway, t ...
*
European Train Control System The European Train Control System (ETCS) is the signalling and control component of the European Rail Traffic Management System (ERTMS). It is a replacement for legacy train protection systems and designed to replace the many incompatible s ...


References

{{Commons category, Linienzugbeeinflussung Train protection systems Railway signalling in Germany