A track circuit is an electrical device used to prove the absence of a
train
In rail transport, a train (from Old French , from Latin , "to pull, to draw") is a series of connected vehicles that run along a railway track and Passenger train, transport people or Rail freight transport, freight. Trains are typically pul ...
on
rail tracks
A railway track (British English and UIC terminology) or railroad track (American English), also known as permanent way or simply track, is the structure on a railway or railroad consisting of the rails, fasteners, railroad ties (sleepers, ...
to signallers and control relevant signals. An alternative to track circuits are
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.
Principles and operation
The basic principle behind the track circuit lies in the connection of the two rails by the wheels and axle of
locomotive
A locomotive or engine is a rail transport vehicle that provides the Power (physics), motive power for a train. If a locomotive is capable of carrying a payload, it is usually rather referred to as a multiple unit, Motor coach (rail), motor ...
s and
rolling stock
The term rolling stock in the rail transport industry refers to railway vehicles, including both powered and unpowered vehicles: for example, locomotives, freight and passenger cars (or coaches), and non-revenue cars. Passenger vehicles can b ...
to short an electrical circuit. This circuit is monitored by electrical equipment to detect the absence of the trains. Since this is a safety appliance,
fail-safe
In engineering, a fail-safe is a design feature or practice that in the event of a specific type of failure, inherently responds in a way that will cause minimal or no harm to other equipment, to the environment or to people. Unlike inherent safe ...
operation is crucial. Hence the circuit is designed to indicate the presence of a train when failures occur. On the other hand, false occupancy readings are disruptive to railway operations and must be minimized.
Track circuits allow
railway signalling
Railway signalling (), also called railroad signaling (), is a system used to control the movement of railway traffic. Trains move on fixed rails, making them uniquely susceptible to collision. This susceptibility is exacerbated by the enormou ...
systems to operate semi-automatically, by displaying signals for trains to slow or stop in the presence of occupied track ahead of them. They help prevent
dispatchers and
operators
Operator may refer to:
Mathematics
* A symbol indicating a mathematical operation
* Logical operator or logical connective in mathematical logic
* Operator (mathematics), mapping that acts on elements of a space to produce elements of another sp ...
from causing accidents, both by informing them of track occupancy and by preventing signals from displaying unsafe indications.
The basic circuit
A track circuit typically has power applied to each rail and a
relay
A relay
Electromechanical relay schematic showing a control coil, four pairs of normally open and one pair of normally closed contacts
An automotive-style miniature relay with the dust cover taken off
A relay is an electrically operated switch ...
coil wired across them. When no train is present, the relay is energised by the current flowing from the power source through the rails. When a train is present, its axles short (
shunt) the rails together. The current to the track relay coil drops, and it is de-energised. Circuits through the relay contacts therefore report whether or not the track is occupied.
Each circuit detects a defined section of track, such as a
block
Block or blocked may refer to:
Arts, entertainment and media Broadcasting
* Block programming, the result of a programming strategy in broadcasting
* W242BX, a radio station licensed to Greenville, South Carolina, United States known as ''96.3 ...
. These sections are separated by insulated
joints
A joint or articulation (or articular surface) is the connection made between bones, ossicles, or other hard structures in the body which link an animal's skeletal system into a functional whole.Saladin, Ken. Anatomy & Physiology. 7th ed. McGraw- ...
, usually in both rails. To prevent one circuit from falsely powering another in the event of insulation failure, the
electrical polarity
An electric current is a stream of charged particles, such as electrons or ions, moving through an electrical conductor or space. It is measured as the net rate of flow of electric charge through a surface or into a control volume. The moving par ...
is usually reversed from one section to an adjacent section. Circuits are powered at low voltages (1.5 to 12 V DC). The relays and the power supply are attached to opposite ends of the section to prevent broken rails from electrically isolating part of the track from the circuit. A series
resistor
A resistor is a passive two-terminal electrical component that implements electrical resistance as a circuit element. In electronic circuits, resistors are used to reduce current flow, adjust signal levels, to divide voltages, bias active el ...
limits the current when the track circuit is short-circuited.
Circuits under electrification
In some
railway electrification
A railway electrification system supplies electric power to railway trains and trams without an on-board prime mover or local fuel supply.
Electric railways use either electric locomotives (hauling passengers or freight in separate cars), el ...
schemes, one or both of the running rails are used to carry the return traction current. This precludes use of the basic DC track circuit because the substantial
traction currents overwhelm the very small track circuit currents.
Where DC traction is used on the running line or on tracks in close proximity then DC track circuits cannot be used; similarly if 50 Hz AC electrification is used then 50 Hz AC track circuits cannot be used.
To accommodate this, AC track circuits use
alternating current
Alternating current (AC) is an electric current which periodically reverses direction and changes its magnitude continuously with time in contrast to direct current (DC) which flows only in one direction. Alternating current is the form in whic ...
(AC) signals instead of
direct current
Direct current (DC) is one-directional flow of electric charge. An electrochemical cell is a prime example of DC power. Direct current may flow through a conductor such as a wire, but can also flow through semiconductors, insulators, or even ...
(DC) but typically, the AC frequency is in the range of
audio frequencies
An audio frequency or audible frequency (AF) is a periodic vibration whose frequency is audible to the average human. The SI unit of frequency is the hertz (Hz). It is the property of sound that most determines pitch.
The generally accepted ...
, from 91 Hz up to 10 kHz. The relays are arranged to detect the selected frequency and to ignore DC and AC traction frequency signals. Again, fail-safe principles dictate that the relay interprets the presence of the signal as unoccupied track, whereas a lack of a signal indicates the presence of a train. The AC signal can be coded and locomotives equipped with inductive pickups to create 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 ...
system.
There are two common approaches to provide a continuous path for traction current that spans multiple track circuit blocks. The simplest method installs insulated track circuit joints on only one of the two rails with the second being a path for the return current and a ground for the track circuit rail. This has the disadvantage of only being able to detect breaks in one rail so the more popular two rail system uses
impedance bonds to permit traction current to pass between isolated track circuit blocks while blocking current at track circuit frequencies.
AC circuits are sometimes used in areas where conditions introduce stray currents, which interfere with DC track circuits.
Jointless track circuits
Modern track is often
continuously welded, the joints being welded during installation. This offers many benefits, except to the signalling system, which no longer has natural breaks in the rail to form block sections. The only method to form discrete blocks in this scenario is to use different audio frequencies (AF) in each block section. To prevent the audio signal from one section passing into an adjacent section, pairs of
tuned circuit
An LC circuit, also called a resonant circuit, tank circuit, or tuned circuit, is an electric circuit consisting of an inductor, represented by the letter L, and a capacitor, represented by the letter C, connected together. The circuit can ac ...
s are connected across the rails at the section boundary. The tuned circuit often incorporates the circuit to either apply the transmitted signal to the track or recover the received signal from the other end of the section.
Consider a railway with two block sections as in the diagram. Section 1 has frequency A injected at the left-hand end and received at the right-hand end. Section 2 continues from the right hand end of section 1 where frequency B is injected and then received at the right-hand end of section 2.
There is often a gap between where frequency A is received and frequency B is injected. This is referred to as a 'tuned zone' and is a section of track where the amplitude of frequency A reduces in the direction of section 2 and the amplitude of frequency B reduces in the direction of section 1. The tuned zone can be of the order of 20 m long.
Advantages of jointless track circuits:
* Eliminates insulated block joints, a component liable to mechanical failure (both of insulation and by introducing stress to adjoining rails) and maintenance.
* In electrified areas, jointless track circuits require fewer impedance bonds than any other double rail traction return track circuits.
Disadvantages of jointless track circuits:
* Restrictions on placing impedance bonds, hence any connection for electrification purposes, in or near tuned zones as this may upset the filter properties of the tuned zone.
* Electronic circuits are more vulnerable to lightning strikes.
CSEE UM71
CSEE (now
Ansaldo STS
Hitachi Rail STS SpA (from ''Hitachi Rail Signalling and Transportation Systems'') or Hitachi Rail STS (previously Ansaldo STS) is a transportation company owned by Hitachi with a global presence in the field of railway signalling and integrated t ...
) UM71 is another kind of jointless track circuit. It uses 1700 Hz and 2300 Hz on one track and 2000 Hz and 2600 Hz on the other. To reduce the chance of stray currents causing a
wrong side failure the modulation frequency is calculated by dividing the base frequency by 128. Different rates of modulation can be detected by equipment on the trains and used for
ATC, so long as the transmitter end (Tx) is at the front of the train.
The EBItrack (formerly TI21) and Westinghouse FS2500 jointless track circuits are similar to the UM71.
Data Pickup Unit
A jointless track circuit such as the CSEE can be divided with a data pickup unit (DPU), which is cheaper than splitting it into two track circuits. A DPU avoids the need to change the frequency of a whole series of track circuits in a cascade. The DPU consists of a tuned coil which detects the presence or absence of current in the adjacent rail and picks up or drops a relay accordingly. One use of DPUs is for timing circuits. Each track circuit frequency has its own DPU tuned to that frequency. DPUs can be located almost anywhere; they overcome the limitation that jointless tracks have a minimum length.
DC coded track circuits
In non-electrified areas, DC coded track circuits may be used. These modulate the current going from the powersource end to the relay end and control the signals and cab signals without the need for line wires. The modulated currents can be detected by equipment connected to the track to provide signaling and indication information to activate proper
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 ...
if available.
They can be overlain by predictor systems to operate level crossings.
Brands of coded track circuit include:
* Alstom née GE Electrocode 5
* Microtrax/E-Code by Hitachi née
Union Switch & Signal
Union Switch & Signal (commonly referred to as US&S) was an American company based in Pittsburgh, Pennsylvania, which focused on railway signaling equipment, systems and services. The company was acquired by Ansaldo STS (from 2015, Hitachi Rail ...
Cut tracks
Where the length of a section exceeds the practical length of a track circuit, cut tracks can be provided. With a cut track, the relay of the last track cuts the powersource feed of the second last track circuit, and so on. Cut tracks are only suitable for unidirectional tracks.
Track circuits with ballast contamination will be shorter than those with good ballast, thus needing more cut tracks.
High voltage tracks
One common brand of high voltage impulse track (HVIT) circuit is made by
Jeumont-Schneider
Jeumont-Schneider was a French electric and mechanical engineering group, founded in 1964.
History
Jeumont-Schneider was formed in 1964 through a merger of FACEJ (''Forges et Ateliers de Construction Electriques de Jeumont'') and ''Matériel Ele ...
. The high voltage penetrates rust and other problems.
The HVIT transmits two pulses alternately, a narrow positive one at about 100VDC and a negative broader one at about 30VDC. The energy of the two pulses is the same. At the receiver end a R-C circuit integrates the two pulses which must be of the correct proportions for the relay to pick up. The R-C circuits check that the positive and negative pulses are in correct phase. The two pulses operate at about 1 Hz.
The circuit will operate on AC and DC electrified lines, with additional equipment.
Single rail and double rail
In non-electrified areas, insulated blockjoints come in pairs, one on each rail.
In electrified areas, a workaround is needed to allow the traction current, of the order of thousands of amps, to return to the substation. This may be achieved by having no insulated block joints in one of the rails, called the return rail.
If both rails are needed to carry the heavy traction return current, then insulated blockjoints are provided in both rails, and impedance bonds are provided to carry the traction current around the insulated joints. Impedance bonds are essentially centre-tapped coils, which offer low impedance to traction current at say 50 Hz, while offering high impedance to signalling current at say 1.7 kHz.
Failure modes and prevention
Wheels and brakes
Railway wheels are made from steel and provide a good short circuit from rail to rail (''shunt resistance'').
Longer trains with more wheels have better conductivity. Short trains, light railmotors or single engines can be a problem. In New Zealand there were problems with light
Rm class railmotors not always being detected; see
Railway signalling in New Zealand. Trains with a single
Budd railmotor, which are also lightweight, and with discbrakes, had some problems when they stopped, and had to make a double stop to ensure good contact with the rails.
Cast iron brake shoes tend to clean the wheels of non-conductive debris (such as leaves and sand-based traction compounds), while
disc brake
A disc brake is a type of brake that uses the calipers to squeeze pairs of pads against a disc or a "rotor" to create friction. This action slows the rotation of a shaft, such as a vehicle axle, either to reduce its rotational speed or to hol ...
s do not. As a result, some disc-braked vehicles have "scrubber pads" cleaning the wheels to aid in proper track circuit operation.
Relays
Track circuit
relay
A relay
Electromechanical relay schematic showing a control coil, four pairs of normally open and one pair of normally closed contacts
An automotive-style miniature relay with the dust cover taken off
A relay is an electrically operated switch ...
s, referred to by signal maintainers as "vital relays," are specially designed to reduce the chance of
wrong-side failure
A wrong-side failure describes a failure condition in a piece of railway signalling equipment that results in an unsafe state.
A typical example would be a signal showing a 'proceed' aspect (e.g. green) when it should be showing a 'stop' or 'dang ...
s. They may, for example, have carbon-silver contacts to reduce the likelihood of the wrong contacts welding shut after power surges and lightning strikes.
Circuit failures
The circuit is designed so the vast majority of failures will cause a "track occupied" indication (known as a right-side failure). For example:
* A broken rail or wire will break the circuit between the power supply and the relay, de-energizing the relay. See exception below.
* A failure in the power supply will de-energize the relay.
* A short across the rails or between adjacent track sections will de-energize the relay.
On the other hand, failure modes which prevent the circuit from detecting trains (known as a wrong-side failure) are possible. Examples include:
* Mechanical failure of the relay, causing the relay to be stuck in the "track clear" position even when the track is occupied.
** One perspex case warped in the heat, and touched the relay contacts, holding them up.
** Another relay saw a metal washer slip off and jam the relay contacts up; the half-washers had to be replaced by full-circle washers.
* Conditions which partially or completely insulate the wheels from the rail, such as rust, sand, or dry leaves on the rails. This is also known as "poor shunting" ("failure to shunt" in North America and Australia). Sanding gear which operates on all wheels of an engine traveling light can temporarily insulate it from the rails until the sanding ceases and the locomotive has moved further down the track.
* Where multiple parallel paths exist for traction return purposes broken rail detection will be lost for the rail that is used for the traction return. If more than one break occurs in that rail a false clear can occur when the train is between the breaks.
* Conditions in the
trackbed (roadbed) which create stray electrical signals, such as muddy ballast (which can generate a "battery effect") or
parasitic electrical currents from nearby power transmission lines.
*
Parasitic oscillation Parasitic oscillation is an undesirable electronic oscillation (cyclic variation in output voltage or current) in an electronic or digital device. It is often caused by feedback in an amplifying device. The problem occurs notably in RF, audio, ...
s in the equipment that controls the track circuits.
* Equipment which is not heavy enough to make good electrical contact (shunt failure) or whose wheels must be electrically insulated.
* A rail break between the insulated rail joint and the track circuit feed wiring would not be detected.
Failure modes that result in an incorrect "track clear" signal (known usually in the US as a "false clear") may allow a train to enter an occupied block, creating the risk of a collision. Wheel scale and short trains may also be a problem. They may also cause the warning systems at a grade crossing to fail to activate. This is why in UK practice, a
treadle
A treadle (from oe, tredan, "to tread") is a mechanism operated with a pedal for converting reciprocating motion into rotating motion. Along with cranks, treadmills, and treadwheels, treadles allow human and animal machine power in the absenc ...
is also used in crossing circuitry.
Different means are used to respond to these types of failures. For example, the relays are designed to a very high level of reliability. In areas with electrical problems, different types of track circuits may be used which are less susceptible to interference. Speeds may be restricted when and where fallen leaves are an issue. Traffic may be embargoed to let equipment pass which does not reliably shunt the rails.
Sabotage is possible. In the
1995 Palo Verde derailment, saboteurs electrically connected sections of rail which they had displaced to conceal the breaks in the track they had made. The track circuit therefore did not detect the breaks, and the engine driver was not given a "Stop" indication. Another form of sabotage, not intended to cause a train crash but merely to make trains stop and slow down unnecessarily in an effort to sabotage an economy or potential injuries, is to tie a wire between the 2 rails, causing a false obstruction signal.
Railhead contamination and rust
The track circuit relies upon an adequate electrical contact between the rail and the wheel; contamination can insulate the one from the other. A common problem is fallen leaves, though there have been cases where crushed insects have also caused detection failures.
A more persistent problem is rust. Usually the railhead is kept clean of rust by the regular passage of trains' wheels. Lines which are not used regularly can become so rusty as to prevent vehicles being detected. Seldom-used points and crossovers and the extremities of terminal platform lines are also prone to rusting. Measures to overcome this include:
* ''Depression bars'' or ''treadles'' to detect vehicles;
* ''
Stainless steel
Stainless steel is an alloy of iron that is resistant to rusting and corrosion. It contains at least 11% chromium and may contain elements such as carbon, other nonmetals and metals to obtain other desired properties. Stainless steel's corros ...
strips'' (often zig zag in shape) welded on the railheads;
* ''High voltage impulse'' track circuits;
* ''Track Circuit Assistor (TCA)'' - a train mounted system that breaks down the resistance of the rust layer;
* ''
Axle counters
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 ...
'' over the affected section; and/or
* ''Tunnel sticks'' whereby a track circuit cannot pickup unless a train is detected in the next track circuit.
Scale
Insulated blockjoints can be bridged by wheel scale in some circumstances causing one or two track circuits to fail. This problem may be reduced by having a pair of blockjoints in series about 4m apart. The short 4m section would not itself be track circuited.
Immunization
Electric locomotives must avoid generating noise in the frequencies that track circuits use. The
SNCB Class 13 had such problems.
Transitory problems
A short, lightweight and fast train passing over an insulated blockjoint may disappear from the departing track circuit before it appears in the arriving track circuit, allowing false clear signals to be given. This problem can be overcome by introducing a time delay of say 1 – 2 seconds into the departing track circuit. Electronic track circuits such as the CSEE can easily incorporate such a time delay.
Siding turnout
It is sometimes convenient to wire the detectors of a set of points through the track circuit over those points. This can be done in one of two ways:
* A contact of the points detector can shunt the track circuit when the points are reverse, putting the signals to red, however this is not failsafe.
* The track circuit can be split with extra blockjoints and the detectors in the points complete the track circuit when the points are normal and the signal is entitled to receive a green light. This is partially fail-safe.
* A second relay can be installed on the turnout, with its contacts wired in series with the main relay. This is fail-safe but expensive.
Track-circuit operating clips
A simple piece of safety equipment which is carried by all heavy rail trains in Britain is a ''track-circuit operating clip (TCOC)''.
This is a length of wire connecting two metal spring clips that clip onto a rail. In the event of accident or obstruction a clip applied to both rails will indicate that that line is occupied, putting the signal for that section to danger.
''Emergency protection'' procedure
in the UK requires TCOCs to be placed on all affected running lines if contact cannot be made immediately with the signaller following an accident where adjacent lines are blocked.
TCOCs are ineffective where train detection is not by means of track circuits, such as
axle counters
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 ...
or
treadles.
History
The first use of track circuiting was by
William Robert Sykes
William Robert Sykes (1840–1917) was a British engineer from London, known for his work in railway signalling and other safety devices. He is noted for the invention of the Sykes ‘Lock and block’ interlocking system of points and signals.
...
on a short stretch of track of the
London Chatham and Dover Railway
The London, Chatham and Dover Railway (LCDR or LC&DR) was a railway company in south-eastern England created on 1 August 1859, when the East Kent Railway was given parliamentary approval to change its name. Its lines ran through London and no ...
at Brixton in 1864.
The failsafe track circuit was invented in 1872 by
William Robinson, an American electrical and mechanical engineer. His introduction of a trustworthy method of block occupancy detection was key to the development of the automatic signalling systems now in nearly universal use.
The first railway signals were manually operated by
signal tenders or station agents. When to change the signal aspect was often left to the judgement of the operator. Human error or inattentiveness occasionally resulted in improper signalling and train collisions.
The introduction of the
telegraph
Telegraphy is the long-distance transmission of messages where the sender uses symbolic codes, known to the recipient, rather than a physical exchange of an object bearing the message. Thus flag semaphore is a method of telegraphy, whereas p ...
during the mid-nineteenth century showed that information could be electrically conveyed over considerable distance, spurring the investigation into methods of electrically controlling railway signals. Although several systems were developed prior to Robinson's, none could automatically respond to train movements.
Robinson first demonstrated a fully automatic railway signalling system in model form in 1870. A full-sized version was subsequently installed on the
Philadelphia and Erie Railroad
The Philadelphia and Erie Railroad was a railroad that operated in the U.S. state of Pennsylvania between 1861 and 1907. It was subsequently merged into the Pennsylvania Railroad (PRR).
History
The Sunbury and Erie Railroad Company (also known a ...
at
Ludlow, Pennsylvania (aka Kinzua, PA), where it proved to be practical. His design consisted of electrically operated discs located atop small trackside signal huts, and was based on an open track circuit. When no train was within the block no power was applied to the signal, indicating a clear track.
An inherent weakness of this arrangement was that it could fail in an unsafe state. For example, a broken wire in the track circuit would falsely indicate that no train was in the block, even if one was. Recognizing this, Robinson devised the closed loop track circuit described above, and in 1872, installed it in place of the previous circuit. The result was a fully automatic, failsafe signalling system that was the prototype for subsequent development.
Although a pioneer in the use of signals controlling trains, the UK was slow to adopt Robinson's design. At the time, many carriages on UK railways had wooden axles and/or wheels with wooden hubs, making them incompatible with track circuits.
Accidents
Caused by lack of track circuits
Numerous accidents would have been prevented by the provision of track circuits, including:
*
Norton Fitzwarren rail crash (1890)
The Norton Fitzwarren rail crash occurred on 11 November 1890, at Norton Fitzwarren station on the Great Western Railway, approximately two miles south-west of Taunton in Somerset. A special boat train carrying passengers from Plymouth to Pad ...
*
Hawes Junction rail crash
The Hawes Junction rail crashHawes Junction station is now called Garsdale occurred at 5.49 am on 24 December 1910, just north of the Lunds viaduct between Hawes Junction (now known as Garsdale station) and Aisgill on the Midland Railway's ...
(1910)
*
Quintinshill rail crash
The Quintinshill rail disaster was a multi-train rail crash which occurred on 22 May 1915 outside the Quintinshill signal box near Gretna Green in Dumfriesshire, Scotland, United Kingdom. It resulted in the deaths of over 200 people, and remain ...
(1915)
*
Geurie crossing loop collision (1963)
*
Lac-Mégantic rail disaster
The Lac-Mégantic rail disaster occurred in the town of Lac-Mégantic, Quebec, Canada, on July 6, 2013, at approximately 01:15 EDT, when an unattended 73-car Montreal, Maine and Atlantic Railway (MMA) freight train carrying Bakken Formation c ...
(2013)
Caused by track circuit failure
Much rarer are accidents caused when the track circuits themselves fail. For example:
*
Cowan rail disaster, which occurred when sand on the rails insulated the wheels from the rails, causing a failure to shunt that allowed a trailing
block signal
Railway signalling (), also called railroad signaling (), is a system used to control the movement of railway traffic. Trains move on fixed rails, making them uniquely susceptible to collision. This susceptibility is exacerbated by the enormo ...
to improperly display a clear aspect, resulting in a rear-end collision.
*
June 22, 2009 Washington Metro train collision
During the afternoon rush hour of June 22, 2009, a subway train wreck occurred between two southbound Red Line Washington Metro trains in Northeast, Washington, D.C., United States. A moving train collided with a train stopped ahead of it; ...
, which occurred when a
parasitic oscillation Parasitic oscillation is an undesirable electronic oscillation (cyclic variation in output voltage or current) in an electronic or digital device. It is often caused by feedback in an amplifying device. The problem occurs notably in RF, audio, ...
developed in a track circuit control module.
[National Transportation Safety Board (NTSB), Washington, D.C. (2009-09-22)]
"Safety Recommendations R-09-15 and R-09-16."
Letter from Deborah A.P. Hersman, Chairman, NTSB, to John B. Catoe, Jr., General Manager, Washington Metropolitan Area Transit Authority.
Broken rails
Because Track circuits operate by passing a current through one or both of the tracks, they can sometimes detect if a rail has broken completely. However, if the break is only partial or is at a turnout (set of points) detection may not be possible.
*
Hither Green rail crash
On 5 November 1967, a busy Sunday evening train service from to derailed near the Hither Green maintenance depot in London, between and railway stations. Of the twelve coaches, many full of standing passengers, eleven were derailed and four ...
(1967) - derailment due to top of rail having broken off
*
Weyauwega derailment (1996) - undetected broken rail in turnout.
*
Big Bayou Canot rail accident
On September 22, 1993, an Amtrak train derailed on the CSX Transportation Big Bayou Canot Bridge near Mobile, Alabama, United States. It was caused by displacement of a span and deformation of the rails when a tow of heavy barges collided with th ...
(1993) - undetected ''unbroken'' but badly twisted continuous welded rail on a bridge that still indicated a clear condition to the signal.
See also
*
Application of railway signals
The application of railway signals on a rail layout is determined by various factors, principally the location of points of potential conflict, as well as the speed and frequency of trains and the movements they require to make.
Non-provisio ...
*
Track circuit interrupter
A track circuit interrupter may be fitted at catch points, trap points or buffer stops to maintain a track circuit in the 'occupied' state in the event of a derailment. The track circuit remains de-energised until the interrupter is replaced.
...
*
Wrong-side failure
A wrong-side failure describes a failure condition in a piece of railway signalling equipment that results in an unsafe state.
A typical example would be a signal showing a 'proceed' aspect (e.g. green) when it should be showing a 'stop' or 'dang ...
References
{{Railwaysignalling
Train detection systems
de:Gleisfreimeldeanlage#Gleisstromkreis