Electrical Cables PDF

Summary

This document provides an overview of electrical cables, explaining the functions of conductors and insulators along with their applications. It also covers mechanical protection and cable sizing.

Full Transcript

Learning Outcomes
State the function of a cable
State the three main parts of a cable
Describe the specific roles of the three main parts of a cable
State the common materials used to make conductors and insulators
Identify the common sizes of cable used in residential premises

1.8.1 Conductor

A conductor is any material that allows a current to flow through easily. Conductors for
everyday use should be:
of low electrical resistance;
mechanically strong and flexible; and
relatively cheap.

Silver has the lowest resistivity and thus better conductivity compared to copper and
aluminium. However, it is too expensive to install cables made of silver. Hence, the most used
material for cables is copper, as it is mechanically stronger and has better conductivity than
aluminium.

Unit 1.8 | Electrical Cables 58
 1.8.2 Insulator

An insulator is any material that has high electrical resistance. Its function is to confine a current
to the conductor, minimising the risk of electric shock and fire. Many materials can be used to
insulate cable conductors, accessories and equipment. The type of insulation used depends
on the supply voltage it is subjected to and its operating environment. Different insulating
materials are used for different applications (Table 1.8-1).

Table 1.8-1: Common insulating materials and applications

Material Application
Bakelite Accessories
Ceramic Support for switchgears
Polyvinyl Chloride (PVC) Cable insulation or sheaths
Mica Insulation for heating elements
Rubber Cable insulation
Paper Cable insulation and capacitors

1.8.3 Cable

A cable consists of at least two parts:
a conductor
an insulator

Fig. 1.8-1: Cable conductor and insulator

The conductor is normally made of copper and aluminium. The insulator can be made of:
polyvinyl chloride (PVC);
vulcanised rubber (VIR);
mineral insulation (MI); or
cross-linked polyethylene (XLPE).

A cable is always named after the insulation used. Hence, the PVC cable got its name because
its insulator is made of PVC.

Unit 1.8 | Electrical Cables 59
 1.8.4 Mechanical Protection

Some cables have an additional sheath and/or armour. These are provided to prevent
mechanical damage to the cables during installation and throughout their subsequent
operation.

Fig. 1.8-2: Parts of a cable

Sheathing involves covering the cable insulation with materials such as PVC, copper and
aluminium. Apart from giving mechanical protection, the sheath also prevents moisture from
damaging the insulation of the cable. Armouring involves wrapping the cable with metal in
the form of steel wire or metal tape.

Very often, cables are sheathed and armoured to give complete protection (Fig. 1.8-3).

Fig. 1.8-3: PVC cable with steel-wire armour

1.8.5 Stranding

Stranding refers to the conductor being divided into a number of smaller wires that are twisted
together in a spiral fashion, forming a core equivalent to a single wire of the required size (Fig.
1.8-4).

Fig. 1.8-4: Cable stranding

Conductors are often stranded to ensure flexibility and ease of handling.

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 1.8.6 Cable Size

The size of a cable can be specified by:
the number of strands and the diameter of each strand (e.g., 7/0.67, where “7” refers to
seven strands of wire and “0.67” refers to each strand of wire having a diameter of 0.67
mm); and
the nominal cross-sectional area of its conductor (e.g., 2.5 mm2).

A cable is normally indicated by the cross-sectional area of its conductor. Some common cable
sizes for residential wiring are 1.5 mm2, 2.5 mm2, 4 mm2, 6 mm2 and 10 mm2. The size of a
cable will determine how much current it can carry.

1.8.7 Identification

To ensure ease of connection, every conductor should be identifiable at its terminations and
preferably throughout its length (Table 1.8-2).

Table 1.8-2: Standard colour identification for cables

Alphanumeric
Function Colour
Number
Phase of Single-Phase Circuit L Brown
Neutral of Single-Phase or Three-Phase Circuit N Blue
Phase One of Three-Phase Circuit L1 Brown
Phase Two of Three-Phase Circuit L2 Black
Phase Three of Three-Phase Circuit L3 Grey
Protective (Earth) Conductor – Green and yellow

Unit 1.8 | Electrical Cables 61