Chapter 15: Cables PDF

Summary

This document covers the planning, laying, and testing of cables for railway signaling systems. It details the required procedures and considerations for various aspects of cable work.

Full Transcript

Chapter 15: Cables
Section 1: General
15.1.1 Railway signalling circuits shall be carried on cables.

(a) Cables for signalling circuits shall be of approved types.

(b) Extant guidelines from Railway Board, RDSO and PCSTE for cable laying
to be followed.

15.1.2 Planning for Cabling

(a) While planning for cabling on a route, the number of conductors required,
depending upon the circuits should be first determined. Recommended
core sizes as per specifications shall be used.
(b) Adequate spare conductors to a minimum of 20% of the total conductors
used shall be provided for in each main cable up to the farthest point zone,
beyond this there should be a minimum of 10% spare conductors of the
total conductors used. No spare conductors are required if the total number
of conductors used is 3 or less. The spare conductors shall be provided on
the outermost layer.
(c) Where a number of cables have been laid along a route, the circuits shall
be so distributed that cables can be disconnected for maintenance purpose
with the least possible dislocation to traffic. Line wise and, if necessary
function wise cable shall be provided. Auxiliary signals shall be taken in
different cables.
(d) After deciding the size and the number of conductors in the different types
of cables to be used on a route, a foot survey along the track should be
done to determine the best route for the cable.
(e) The route shall be shown clearly on a cable route plan showing the actual
alignment of track, giving offsets from permanent way or permanent
structures. The diagram should indicate the various road and track
crossings, crossing with power cables, water and sewage mains and other
points of importance. It is preferable to chart the route on a route plan on
which the existing routes of power cables, etc. are shown. Changes if any
should be incorporated in the chart/plan.
(f) Cable route plan shall also be approved by Engineering and Electrical
departments. Approval of S&T open line is also required where ever it is
prepared by other than open line. In case of Construction works cable route
plan shall be signed by Engineering and Electrical departments of
executing agencies as well.

(g) As far as possible low lying areas, platform copings, drainages, hutments,
rocky terrains, points and crossings, shall be avoided. Proximity to
Electrical Sub Stns/Switching stns shall be avoided.

(h) Separate cables of suitable size shall be laid for point operation.

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 (i) In case of Tunnel, provision of cable duct should form part of the Tunnel
design.
(j) Provision of suitable duct/pipe/other arrangements shall be incorporated in
the bridge design itself for laying of cables on bridges.

15.1.3 Storage and Transportation of Cable

(a) Cable drums shall not be stacked on flat side. Suitable stoppers shall be
placed for stability.
(b) Cable drums shall have access for lifting and moving.
(c) When rolling the cable drum either for unloading or transportation, the drum
shall always be rotated in the direction of the ‘arrow’ which is marked on the
drum.
(d) The drums shall not be rolled over objects that could cause damage to the
protective battens of the cable.
(e) When unloading is carried out from the vehicle, the drum shall not be
dropped on the ground directly to avoid damage due to impact. Fork lifter or
ramp shall be used.
(f) During all stages of storage, it is essential that the ends of the cable are
effectively sealed by end cap or in any other approved manner to avoid
water entry into the cable.
(g) It is desirable that cable drums are stored in covered shed to protect
against direct exposure to sun.

Section 2: Paying Out, Trenching & Laying of Cables
15.2.1 Paying Out and Testing of Cable

(a) For paying out cables, the cable drums shall be mounted on cable wheels.
It should be ensured that no kink is formed while paying out the cable.
(b) The drum on the wheel shall be brought to one end of the trench, the end of
the cable freed and the cable shall be laid along the trench.
(c) A party of labourers shall move along the trench carrying cable at suitable
intervals so that cable is not damaged due to dragging along the ground or
bent unduly.
(d) Before the cable is laid in the trench, a visual inspection of cable shall be
made to see that there is no damage to the cable. It shall be tested for
insulation and continuity of the cores. Thereafter the cable shall be laid in
the trench. Record of insulation and loop resistance must be maintained.
(e) In cases where the wheels are not available, the drum shall be mounted on
an axle at one end of the trench and cable paid out and carried by
labourers.
(f) In no case, shall the drum be rolled off on to the road for laying the cable
and the cable dragged on the ground for laying purposes.

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 (g) Whenever mechanized equipment is used, the work shall be carried out by
a trained operator under the supervision of SSE/JE(Signal), in charge of
the work.
(h) Where the cable drum is in damaged condition the cable may be placed on
a horizontal revolving platform and the cable paid out in the same manner
as given in paras above.
(i) Paying out of cable should be done by rotating the cable drum and not by
pulling the cable with excessive force.
15.2.2 Trenching
(a) The width of cable trenches should commensurate with number of cables.
The minimum width shall be kept as 0.3 meters. The bottom of the cable
trench should be levelled and got rid of any sharp materials. In the soft
ground, the cable should be laid at the bottom of the trench previously
levelled. In the rocky ground, the cable should be laid on a layer of sand or
sifted earth of 0.05 meters thickness previously deposited at the bottom of
the trench. In both the above cases, the cable should be covered with a
layer of sand or sifted earth of 0.10 meters thickness and thereafter a
protective cover of trough or a layer of bricks or split DWC-HDPE pipe of
approved type or any other approved means should be placed.
(b) Bottom of Trench shall be cleared in such a way, so as to remove all the
boulders having sharp edges. In rocky soil, the bottom of the trench shall be
filled with river sand or any other soft material and cable shall be laid on
smooth surface.
(c) In block section horizontal directional drilling method may also be used based
on site conditions for the laying of Quad and OFC cables across the track at
sufficient depth to avoid damage due to future work of doubling etc.
(d) Where it is not feasible to achieve required depth due to rocky soil/other
obstructions, protective measures as shown in Drg. No.15-D2 shall be taken.
(e) Where feasible, trenching may be done with suitable machinery, with due
precautions towards safety of the running trains. For carrying out such
works, the rules governing the working of machinery along the track shall
be followed scrupulously. Suitable instructions in this regard shall be issued
by the Railways in the form of a joint circular.
15.2.3 Laying Of Cables
(a) Cables shall be laid generally as per instructions given in this chapter.
However, special precautions to be taken in the station yards etc., where a
number of other utilities may be existing, may be detailed in a joint circular
issued by the Civil Engineering, Signalling and Electrical Department(where
applicable) of the Railway.
(b) Cables may be laid underground, either in the trench, in ducts, in cement
troughs, in pipes or in any other approved manner.

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(c) The main cable laid parallel to the track shall normally be buried at a depth
of 1.0 meters from top of cables to ground level, including those laid across
the track (1.0 meter below the rail flanges). The depth shall not be less than
0.50 meters for tail cables. In theft prone areas, the cables may be laid at a
depth of 1.2 meters with anchoring at every 10 meters.
(d) Half Cut DWC-HDPE pipe/RCC or any other approved type of ducts/pipes
shall be used while laying the cable for protecting it.
(e) The ducts being used shall be of such design and length to
prevent/minimise damages to cable by any other future digging activities in
the vicinity. The ducts shall have suitable covers to prevent water collection
in the duct.
(f) When cables are to be laid in rocky area, where depth of 1.0 metre is not
feasible, it is desirable that such cables are protected as shown in
Drg. No: 15-D2.

(g) Cables belonging to other department must not be laid in the same trench
along with Signal & Telecommunication cables.
(i) A distance of approximately 10 cm must be maintained between cables
of other department and signalling cables.
(ii) The signalling cables must be separated from LT power cables by a row
of bricks or any other approved means and from HT power cables a
minimum of 3 meters separation shall be maintained.
(h) Where several cables of different categories have to be laid in the same
trench, they shall be placed as far as possible in the following order starting
from the main track side, so that in the event of failures, the maintenance
staff may easily recognise the damaged cables.
(i) Telecommunication cable
(ii) Signalling cable
(iii) Power cable
(i) Signalling cables for outdoor circuits should not normally be laid above
ground. In exceptional cases where it becomes unavoidable, the following
precautions should be taken.
(i) The cable should be suspended in wooden cleats, from cable hangers or
in any other approved manner so that no mechanical damage occurs to
the cable even under exposed condition.
(ii) The cable supports shall be so spaced as to avoid sag.
(iii) In station yards, cable shall be laid in ducts suitably protected.
(iv) Indoor signalling cable should normally be laid on ladders, channels or
in any other approved manner. The cables should be neatly tied/laced.
Note: For laying cables in RE area, please refer to Section 3 of this Chapter.

(j) Where it is necessary to take the cable between the tracks, it shall be
carried in trunking/Duct/pipe kept sufficiently below the ballast level.

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 (k) While laying the cables in accordance with the above instructions, the
following instructions should be adhered-
(i) Outside the station section, the cables should generally be laid at not
less than 5.5 meters from the centre of the nearest track.
(ii) Within the station section, the trenches shall preferably be dug at a
distance of not less than 3 meters from the centre of the track, width of
the trench being outside the 3 meters distance.
(iii) At each end of the main cable an extra loop length of 6 to 8 meters should
be kept.
(l) After laying the cables, back filling of the trenches should be done properly.
The soil excavated shall be put back on the trench, rammed and
consolidated.
(m) Cable joints of approved type shall be used.
(n) Cable markers of approved type shall be provided which should be placed
at suitable interval and at diversion points to mark the route.
(o) Where the cables are entering the Cable room/Relay room/apparatus case etc.,
the cables shall be firmly held with suitable clamping arrangement, so as to
avoid downward displacement. Suitable ducts, ladder supports, cable guides
etc., shall be provided for the cables inside the Cable room/Relay room. Sharp
cable bends shall be avoided.

15.2.4 Cable Crossing

(a) When a cable has to cross the track, is should be ensured that-
(i) The cable crosses the track at right angles.
(ii) The cable does not cross the track under points and crossings.
(iii) The cable is laid in concrete/GI/DWC-HDPE pipes of approved type,
suitable ducts or in any other approved manner while crossing the track.
(iv) Wherever feasible horizontal directional drilling method may be used.
(b) Wherever practical, the cable may be taken underground across the drain
bed at a suitable depth for crossing small culverts with low flood level,
horizontal directional drilling method may be used where ever feasible.
(c) When the cables have to cross any roads, high banks etc. where
necessary, horizontal directional drilling method may be used.
(d) When cables have to cross a metallic bridge, they should be placed inside
a metallic trough/GI pipe which may be filled, as an anti-theft measure, with
sealing compound or any other suitable means. The cable should be
supported across the bridge in a manner which would involve minimum
vibrations to the cable and which will facilitate maintenance work. Adequate
cable length to the extent of 2 to 3 meters shall be made available at the
approaches of bridge.
(e) It is desirable that the excavation of the trenches is not done in long lengths
and does not remain uncovered for long period. It is preferable that cables
are laid and refilling done on the same day.

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 (f) During excavation, the soil of the trenches should not be thrown on the ballast.
The soil should be thrown by the side of the trenches away from the track.
(g) In places where cables to be laid within 1 meter from sleeper end, digging
beyond 0.50 meter shall be done in the presence of an official from
Engineering Department, and the laying of the cable and refilling of trench
should be done with least delay.
(h) The work shall be supervised at site personally by an official of the Signal and
Telecommunication Department not below the rank of a JE/SSE (Signal).

Section 3: Cable Laying in RE Area
15.3.1 Only unscreened approved type underground cables shall be used for
signalling purposes.
The following precautions shall be taken:
(a) The cable shall be so laid that it is not less than one meter from the nearest
edge of the mast supporting the catenary or any other live conductor,
provided the depth of the cable does not exceed 0.5 meters. When the
cable is laid at a depth greater than 0.5 meters, a minimum distance of
3 meters between the cable and the nearest edge of the O.H.E structure
shall be maintained. If it is difficult to maintain these distances, the cable
shall be laid in DWC-HDPE/Concrete Ducts or any other approved means
for a distance of 3 meters on either side of the Mast. When so laid, the
distance between the cable and the mast may be reduced to 0.5 meters.
These precautions are necessary to avoid damage to the cable in the event
of the failure of an overhead insulator.
(b) In the vicinity of traction sub stations and feeding posts, the cable shall be
at least one metre away from any metallic part of the O.H.E and other
equipment at the substation, which is fixed on the ground, and at least one
metre away from the substation earthing. As far as possible, the cable shall
be laid on the side of the track opposite to the feeding post. In addition, the
cable shall be laid in concrete or DWC-HDPE pipes (approved type)/Split
RCC pipes or other approved means for a length of 300 meters on either
side of the feeding point.
(c) In the vicinity of the switching stations, the cable shall be laid at least one
metre away from any metallic body of the station, which is fixed in the
ground, and at least 5 meters away from the station Earthing. The distance
of 5 meters may be reduced to one metre provided the cables are laid in
concrete pipes/DWC-HDPE-pipes of approve type/ducts or any other
approved means.
(d) Where an independent Earth is provided for an O.H.E structure, i.e. where
the mast is connected to a separate Earth instead of being connected to
the rail, the cables shall be laid at least one metre away from the Earth.
(e) Where there are O.H.E structures along the cable route, the cable trenches
shall as far as possible, be dug not less than 5.5 meters away from the
centre of the nearest Track.

Chapter 15: Cables Page 319 of 530
 (f) The use of G.I pipes or any form of metallic pipes is prohibited within a
distance of 300 meters from feeding post. Similarly galvanized iron metallic
pipes are prohibited in close proximity to switching station earth or traction
mast. (Para 20706 (vi) of ACTM)

Section 4: Insulation Resistance Testing of Signal Cables
15.4.1 These instructions apply only to the cables used for Railway Signalling and do
not cover internal wiring.

(a) The insulation resistance tests should be made when conductors, cables
and insulated parts are clean and dry.

(b) A 500 V insulation tester should be used for insulation testing of signalling
cables and 100 V insulation tester shall be used for Quad cables.

(c) Any metallic sheath or metal work of any rack or apparatus case should be
bonded to earth during test.

(d) Disconnect all cores of a cable at both ends. The disconnection may be
made through links of ARA/Modular terminals, if provided.

(e) Connect one terminal of the insulation tester to the conductor under test
and other terminal to all the other conductors being bunched together and
connected to earth.

(f) Similarly test remaining conductors of the cable one by one as in above
Paras.

(g) Insulation Resistance so measured should not be less than 5 mega ohms
per km at buried temperature, if the insulation resistance is found to be
lower than 5 mega ohms, the cause should be investigated and immediate
steps taken to repair or replace it.

(h) Insulation Resistance tests should be made in such a manner that safe
operation of trains is not affected. It should be ensured that no unsafe
conditions are set up by the application of test equipment.

(i) All conductors in signalling cables must be tested for their insulation before
commissioning.

(j) The conductors of the cables may accumulate electrostatic charge. The
cable conductors should be shorted or earthed to completely discharge any
accumulated charge.
(i) Before connecting the insulation tester while commencing the test.
(ii) After the insulation tester is disconnected when the test is completed. This
is in the interest of safety of personnel and protection of equipment.

(k) The results of the insulation resistance tests should be recorded in
approved proforma. A comparison of test results between successive tests
carried out on a cable under similar conditions will give an indication of the
trend towards deterioration of the cable.

Chapter 15: Cables Page 320 of 530
 Section 5: Maintenance of Cables
15.5.1 Testing of Cables

(a) All conductors in signalling cables must be tested for their insulation in dry
weather once in three years provided cables are monitored through ELD
else annually preferably before monsoon as per instructions specified in
section 4. Reading shall be recorded as per the format mentioned in
Annexure: 15-MS1. Tail cables should be tested for insulation once a year.
A comparison of the test results between successive tests carried on a
cable under similar conditions will give an indication of the trend towards
deterioration of the insulating material over a period of time. If a sudden fall
in insulation is observed, the cause should be investigated and immediate
steps taken up to repair or replace the cable.

(b) In addition to the regular testing of cables in dry weather, random tests in
wet weather may also be carried out, where considered necessary, to
localise any sudden deterioration in insulation of cables.

(c) All cables termination devices, pillar boxes, cable heads and glands shall
be kept clean and dry. These parts shall be frequently inspected and any
tendency for moisture or water leak shall be immediately attended to.

(d) No excavation in the vicinity of underground signal cables shall be
undertaken without a representative of the signal & telecommunication
department present and without taking suitable precautions for the safety of
the existing cables. Suitable instructions in this regard shall be issued by
the Railway in the form of a joint circular.

(e) The protective works provided for the cables at places like track crossings,
culverts, bridges etc shall be regularly inspected by the maintenance staff,
special attention being paid to these protective works soon after the
monsoon.

(f) Earth Leakage Detector (ELD): Shall be provided in all signalling installations
and shall be interfaced with Datalogger (where ever feasible) for remote
monitoring.
Note: For Maintenance Schedules of ELD, please refer to Annexure: 15-MS2.

15.5.2 Periodical Testing of Signalling cables shall be as under;
(a) First measurement of insulation of the cable should be carried out after
laying of the cable and after first monsoon for all the conductors.
(b) After major work in a yard, all cables should be meggered afresh.
(c) In all other cases, Insulation Resistance shall be tested periodically as
given below.

Type of Cable Periodicity
i) Main Cable Every 2 years
ii) Tail Cables – Signal/Track/Points etc Once in 1 year
iii) Spare conductors Once in 1 year

Chapter 15: Cables Page 321 of 530
 Note: This Chapter has under mentioned Annexures in Appendix I

S.No Annexure Description
No
1 15-MS1 Maintenance Schedule of Cable, Cable Insulation Resistance Test Sheet,
Instructions for Insulation Resistance Testing of Signalling Cable.
2 15-MS2 Maintenance Schedule of Earth Leakage Detector (ELD).

Note: This Chapter has under mentioned Drawings in Appendix II

Drawing
S. No Description
No
1 15-D1 Drawing for RCC cable marker.
2 15-D2 Drawing for cable laying when rock faced at;
300 mm (Sheet 1 of 3),
400 mm (Sheet 2 of 3),
600 mm (Sheet 3 of 3).
3 15-D3 Drawing for RCC duct 500 mm (Sheet 1 of 2) & Drawing of RCC split
pipe. (Sheet 2 of 2).
4 15-D4 Drawing of DWC split pipe (120 mm dia).
5 15-D5 Drawing for Road/Track crossing.
6 15-D6 Drawing for Cable trough for metallic bridge.
7 15-D7 Drawing for Cable laying on culverts.
8 15-D8 Drawing for Cable laying on culverts with high flood level.
9 15-D9 Cable core plans for a;
4-Road station with PI (Sheet 1 of 3),
6-Road station with Distributed EI (Sheet 2 of 3),
6-Road station with PI with either side cable Huts. (Sheet 3 of 3 ).
10 15-D10 Cable Plan for Electric Lifting Barrier (ELB) at Station.

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