Classification of Cables
Points : classification of electric cables, v.i.r. vulcanized insulated rubber cables, .t.s or t.r.s (cabtyre sheathed) or (tough rubber sheathed) cables, poly vinyl chloride (p.v.c) insulated cables, lead sheathed cables, flexible cables and cord, weather - proof cables, properties of insulation, according to the number of cores, advantages of stranded conductors over solid conductors,
The cable employed for internal wiring of buildings may be divided into different groups
according to:
(i) Type of insulation used
(ii) Number of cores used
(iii) Voltage grading and
(iv) Conductor used
(i) ACCORDING TO INSULATION
The following cables are used for different types of wiring installation.
(I). V.I.R (Vulcanized Insulation Rubber) Cable
(ii) C.T.S (Cabtyre sheathed) Cable or T.R.S (Tough Rubber Sheathed) Cable.
(iii) P.V.C (Poly vinyl Chloride) Cable.
(iv) Lead sheathed cable.
(v) Flexible Cable.
(vi) Whether Proof Cables.
(i) V.I.R. VULCANIZED INSULATED RUBBER CABLES
V.I.R insulation is applied on wires and cables of low and medium voltage. Vulcanized rubber
contains sulphur, which reacts readily with copper. A thin layer of pure rubber is first applied
beneath the V.I.R insulation.
The copper conductor is tinned to provide protection against corrosion due to presence of traces
of sulphur, zinc oxide and other mineral ingredients in the V.I.R. V.I.R. cables are available
in 250/440v as well as in 650/1100 volts cables and are used for general electrical wiring in
cleat, casing capping and conduit.
(ii) C.T.S OR T.R.S (CABTYRE SHEATHED) OR (TOUGH RUBBER SHEATHED) CABLES
The rubber layers serve as insulation covering of V.I.R cables. As rubber is easily damaged, a.
protective layer of tarred jute braiding is applied over it. Conductors with insulation covering
of V.I.R and protective covering of Tough rubber are called Tough Rubber sheathed (T.R.S) and
Cab tyre sheathed (C.T.S) Cables.
OR
These cables are available in 250/440 volts grade and used in C.T.S or T.R.S wiring. T.R.S.
cable in nothing but a vulcanized rubber insulated conductor with an outer protective covering
of tough rubber. These cables are waterproof, hence can be used in wet, condition. These cables
are cheaper in cost and lighter in weight than lead alloy sheathed cables.
(iii) POLY VINYL CHLORIDE (P.V.C) INSULATED CABLES
In this type of cable conductor is insulated with P.V.C insulation. It is a thermoplastic
material, which is resistant to oil grease and water and is suitable for insulation. P.V.C is
harder than rubber so it does not require covering over P.V.C for mechanical and moisture
protection. These cables are available in 250/440 volts grades, and are used for concealed wiring. These cables are not used for heating appliances.
(iv) LEAD SHEATHED CABLES
The lead sheathed cable is a vulcanized rubber insulated conductor covered with a continuous
sheath of lead. The lead sheath provides good protection against mechanical injury and so can be
used without casing or conduit system. These cables are available in 250/440 volts grade and are
used for internal wiring where climatic is not dry and has little bit moisture.
(v) FLEXIBLE CABLES AND CORD
The flexible cable consist of wires either silk or cotton or plastic covered. Plastic cover is
more popular as it is available in various colours. Flexibility and strength is achieved by
using the conductors having large number of strands.
These wires or cables are used for household appliances such as radios, Fans, Lamps etc.
(iv) WEATHER - PROOF CABLES
These cables are used for out-door wiring and for power supply or industrial supply. These
cables arc either P.V.C insulated or vulcanized rubber-insulated conductors being suitably taped
(only incase (V.I.R) braided and then compounded with weather resistant material. These cables
are not affected by heat or sun or rain.
Properties of insulation
The conductor is covered with insulating material so that it may prevent leakage of current from
the conductor, i.e., the insulating material should be extremely high resistive to the flow of
electrical current though them. The insulating material used in electrical cables must have the
following properties.
(i) High resistivity
(ii) High flexibility
(iii) Non inflammability
(iv) High resistance against moisture, acids and alkalies.
(v) Capacity to withstand high temperature without much deterioration.
(vi) Capacity to withstand high rupturing voltages.
(vii) Should not be hygroscopic
The property of absorbing moisture is called hygroscopic property.
VOLTAGE GRADING
Cables and insulated wires are manufactured to work up to a particular voltage. The dielectric
failure of cable insulation depends on voltage. The insulation may puncture if the voltage
exceeds the limit.
Therefore, the classification of cables is done according to the “voltage” at which the cables
are designed to work.
A 250 / 440 V grade cable is suitable for use on single phase or three-phase system, where the
voltage between each conductor and earth does not exceed 250 V (i.e.. solidly earthed 400 / 440
V system).
A 650 / 1100 Volts grade cable is suitable for use on medium voltage 3-phase system, where the
voltage between each conductor and earth does not exceed 650 V (i.e. solidly earthed 1100 V
system).
(ii) ACCORDING TO THE NUMBER OF CORES
The cables of the cables may be divided into the classes known as single core cables, twin core
cables; three core cables; two core with (E.C.C) Earth continuity conductor etc.
CORE
It is one or several twisted strands of wire used as a conductor of electric current. A
multi-core conductor is a cable with several cores insulated from one another and enclosed in a
common sheath. The cables are manufactured as single core, twin core, three core (flat or
circular), and two cores with E.C.C.
(iii) ACCORDING TO VOLTAGE GRADING
The cables may be divided into two classes:
(i) 250/440 volts cables and
(ii) 650/1100 volts cables
(IV) ACCORDING TO THE CONDUCTOR
A number of single bare conductors twisted together from a multi-standed conductor.
Advantages of Stranded Conductors Over Solid Conductors
1. Stranded conductors are more flexible. Chances of cracking of insulation at bend are less.
They can be easily laid, are comparatively easier to handle.
2. Connections and joints of stranded conductors are stronger and of longer life.
3. Stranded conductors become stronger when reinforced and have better gripping of insulation.
4. Solid conductors between supports of overhead lines may break due to vibration. It is avoided
with stranded conductors.
5. Space between strands permits flow of oil in the (UG) under ground cable to cool and insulate
it.
Size of Wire
The size of the wires is given with the help of S.W.G. number. For example a wire may be
indicated as 3/.029. The given size of wire 31.029 means that of wire numerator indicates the
number of strands employed and denominator indicates the SWG number of each strand.
Now-a-days the sizes of the wires in metric system is given by 19/2.24 means that there are
nineteen strands, each strand being of diameter 2.24 mm. Similarly 7/1.70 size wire means that
wire consisting of 7 strands, each strand of 1.7O mm diameter.
thanks for the clarification i need further clarity if you now have thus classificastion how do you unpack it (2810.30)
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