Transmission
medium / Communication Channel [SLC 2070
S] [SEE 2074 U] [MM 2076] [MFT 2075]
Transmission medium is a pathway that can transmit information from a
sender to a receiver through wired or wireless medium on a network.
The types of communication medium
are:
i) Guided Medium (Bounded or Wired)
ii) Unguided Medium (Unbounded or
Wireless)
Guided
medium [SEE 2074 U]
The transmission media which comprises of cables or wires through which data is
transmitted is called guided medium. They are called guided since they provide
a physical channel from the sender device to the receiver device. The signal
travelling through these media are bounded by the physical limits of the
medium.
E.g.: twisted pair cable,
co-axial cable, fibre optics cable, etc.
Features
of guided media: [SEE 2075]
a)
Data
transmits through the physical cable or fixed path
b)
Data
transmission rate is higher.
Unguided
medium [SEE 2074 U]
The transmission media which transfer data in the form of
electromagnetic waves that do not require any cables for transmission is called
unguided medium. These media are bounded by geographical boundaries.
E.g.: radio wave, microwave,
infrared etc.
Guided
VS Unguided Media
|
Guided Medai |
Unguided Media |
|
Guided media is a medium that sends signals
through a solid physical path. |
Unguided media is a medium that transmits
signals through free space. |
|
There is a specific direction to send
signals. |
There is no particular direction to send
signals. |
|
Used in wired transmission |
Helps wireless transmission |
|
Twisted pair, coaxial cable, and fiber
optics |
Radio wave, microwave, and infrared |
Twisted
pair cable
A pair of wires twisted with each
other is known as twisted pair cable. A set of four pairs of twisted
wires are bundled to form cable. These are the most common medium for LAN. Wires
are twisted with each other so as to reduce crosstalk (A disturbance caused by electromagnetic interference, along a circuit or
a cable pair).
Its types are:
a) Unshielded Twisted Pair Cable
b) Twisted Pair Cable
Unshielded
twisted pair (UTP)
Unshielded
twisted pair is a popular type of cable that consists of two unshielded wires
twisted around each other which are used in telephone wiring and local area
networks (LANs). It is called unshielded because it has no additional foil
wrap, or shield.
RJ-45 connector is commonly used
with unshielded twisted pair.
Shielded
twisted pair (STP)
Shielded twisted pair is a type of copper telephone wiring in which each of the two
copper wires are twisted together and coated with an insulating coating. The extra
covering in shielded twisted pair wiring protects the transmission line
from electromagnetic interference.
D-shell connectors are used with
shielded twisted pair.
Co-axial
cable
Coaxial (or
“coax”) cable is a common type of cable used for transmitting data over long distances. They are most commonly used
to transmit cable TV and Internet signals.
The
connectors used with co-axial cables are BNC, T-connectors and terminators in
bus topology.
10
bps is the maximum speed of co-axial
cable.
Fiber
optic cable
Fiber
optics cable is one of the costlier cables used in data communication which
uses light to carry a data signal through the cable.
The
connectors used in fiber optics are Screw Mounted Adaptors (SMA), Spring-loaded
Twist (ST), SC and FC.
It
is costlier to maintain, produce and install.
Radio
wave transmission
The transmission making use of
radio waves through air is called radio wave transmission.
It provides low bandwidth for
data communication.
Radio, TV,
cellular phones etc. uses radio transmission in one form or another.
The radio waves
can travel through walls and through an entire building.
Depending upon
the frequency, they can travel long distance or short distance.
It
does not require line of sight for data transmission
Microwave
transmission
Microwave is
a line-of-sight wireless communication technology that uses high
frequency beams of radio waves to provide high speed
wireless connections that can send and receive voice, video, and data
information.
Microwaves do
not pass through buildings. So, indoor receivers cannot be used effectively.
It provides higher bandwidth for
data communication.
It
requires line of sight for data transmission.
Infrared
transmission
Infrared
Transmission is the transmission of data or voice information over infrared
(IR) light over short ranges.
It requires
line-of-sight and is unable to break through walls.
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