Transmission Media | Computer Networks

Vidumini Bandara
5 min readOct 10, 2021

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This article is intended to give you a brief overview of the transmission media of computer networks.

Let’s see what’s on this topic,

A transmission medium is a communication channel that transmits information from the sender to the receiver using electromagnetic signals. The main purpose of this medium is to gradually retrieve data over a local area network (LAN).

These electromagnetic signals travel from one place to another through a vacuum, air, water, copper wire, fiber optics, or another medium of transmission. Electromagnetic energy includes power, sound, visible light, radio waves, ultraviolet light, and gamma rays.

Factors to consider when choosing a transmission medium,

1. Transmission Rate

2. Cost and Ease of Installation

3. Resistance to Environmental Conditions

4. Distances

There are two main types of network transmission media as guided and unguided.

1. Guided media

The signal strength is driven and directed in a fixed path in the guided media. Used for point-to-point connectors or shared connectors with multiple connections.

ex: Twisted-pair cables, coaxial cables, fiber optic cable

2. Unguided media

The signal energy is transmitted over a wireless medium in unguided media. Used for radio and long-distance broadcasting with the use of microwave connectors.

ex: Radio waves, microwaves, Infrared

Guided media

Twisted pair wires

The twisted-pair cable consists of two insulated copper wires arranged in a regular spiral pattern. Both wire pairs act as a single communication connector. Adjacent pairs are twisted to eliminate crosstalk.

This is the most commonly used guide transmission medium and is the least expensive. There are two types of twisted wire pairs,

Unshielded Twisted Pair — Usually consists of wire and insulators. Have the ability to block interference. These twisted pair cables are used for telephonic applications.

Shielded Twisted Pair — Each pair of insulating wires has a braided wire mesh covered. Gives a better performance with a higher data rate.

Unshielded twisted pair and shield twisted pair

Coaxial cables

The center of a coaxial cable is wrapped in a concentric solid or stranded copper wire enclosed in an insulating sheath, which is encased in an external conductor of metal strips, braids, or both. The external metal winding serves as a shield for sound and as a second conductor to complete the circuit. This outer conductor is also encased in an insulating sheath and the entire cable is protected by a plastic sheath.

The coaxial cable carries a higher frequency range than twisted-pair cables.

Coaxial cable

Fiber optic cable

A fiber optic cable is made of glass or plastic and transmits signals in the form of light with the use of reflection to guide light through a channel. The difference in density of the two materials is so great that a beam of light passing through a core must be reflected from the mantle instead of being refracted into it.

There are two main types of fiber optic cables,

Single-mode cable— A single strand of glass fiber that has one mode of transmission. Have a higher bandwidth, but require a light source with a narrow spectral width.

Multi-mode cable — Gives a high bandwidth at high speeds over medium distances. There are two types of multi-mode cables as step-index and graded-index.

Fiber optic cable

Unguided media

Radio Waves

Radio waves use omnidirectional antennas to transmit signals in all directions. This feature of radio waves is useful for multiple transmissions, where there is one sender but many receivers. There are several types of antennas depending on the wavelength, power, and purpose of transmission.

Radio waves are used for AM and FM radio, maritime radio, cordless phones, and televisions. Radio frequencies can be used for direct voice communication within 10 miles.

Radio Waves

Microwaves

Electromagnetic waves with a frequency of 1–300 GHz are called microwaves. Microwave waves require directional antennas that can transmit signals in one direction and they are propagation is line-of-sight.

Microwaves are used for unitary communication such as mobile phones, satellite networks, and wireless LANs. There are two types of antennas used for microwave communication as parabolic dish and horn antenna.

Microwaves

Infrared

Infrared waves with frequencies from 300 GHz to 400 THz can be used for short-distance communication in a closed area using line-of-sight propagation. They cannot penetrate through the barriers that intersect between systems. These are considered as one of the most secure transmission modes due to the short-range.

Infrared is used in TV remotes, wireless speakers, automatic doors, printers, remote controls, wireless mouse, keyboards, and other handheld devices, etc.

Infrared

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Let me wind up this topic here. I look forward to seeing you soon with another interesting topic.

Have a nice day! take care!

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Vidumini Bandara
Vidumini Bandara

Written by Vidumini Bandara

Software Quality Assurance Engineer | Undergraduate | Faculty of Information technology, University of Moratuwa | Intern — Software Engineer | Josephian

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