What Is the Difference between Wire and Cable?
Cables and electrical wires are the same
In fact, they are completely different
One is a Single Core but the Other One Contains Multiple Wires
A wire is a single electrical core while a cable is an assembly or bundle of multiple wires in a common sheath
Both are used to conduct electric current
Today, almost everything is powered by electricity thanks to advances in technology
Whether indoors or outdoors, we need to ensure a stable and uninterrupted power supply, which is achieved by using the right wires and cables
Not only does the electricity industry use cables and wires to transmit and distribute electricity to our homes and businesses, but the telecommunications industry also uses different types of cables to ensure the uninterrupted transmission of data
There are several types of cables and wires depending on their application and use
Communications Cable
The types of cables and wires used for communication or signaling are called communication cables
Their only purpose is to transmit information
Here are 3 types of communication cables:
Coaxial Cable
A coaxial cable is a type of electrical cable that is made up of four layers that form a coaxial shape (with a common sleeve or center)
The central part of the coaxial cable is a core covered with an insulating plastic layer, surrounded by a metal screen
Strong Conductor Wire
Solid wire or otherwise known as the bare wire is a single insulated conductor
This is the most common choice for home wiring
It is available in multiple colors for phase and ground identification
There are two types of solid thread;
Single Standard Wire
A single wire is made up of several thin wires that together form a conductor
Braided construction provides flexibility and is therefore suitable for applications where wires need to be bent or twisted
Trapped electricity is better than steel because it is easier to transport through pipes in walls due to its flexibility
Single Solid Wire
Solid wire with plastic insulation
The solid construction ensures the best contact, but it is difficult to bend or deform due to its rigidity
Excessive bending can damage and break the internal connector
They are used in applications that do not require wire movement or bending