Transmission Media.pdf

Transcript

TRANSMISSION MEDIA
OBJECTIVE:
 Explain types of networking media
 Understand and explain Coaxial cables, Twisted pair cables, Fiber
optic cables
 Compare the transmission media

Networking Transmission Media

Network transmission media is the actual path over which an electrical
signal goes as it moves starting with one part then onto the next.
There are 2 types of transmission media used in Networking:
1. Wired / Guided(Cables)
2. Wireless / Unguided (Wireless)
In this session we will cover the wired part of transmission media.
1. Coaxial cables
2. Twisted pair cables
3. Fiber optic cables
1. Coaxial Cable:
 A Coaxial cable or coax is a cable is used in the transmission of
audio, video, and communications.
 Mainly Coaxial cables are used as cable television, network and
broadband cable.
There are two types of Ethernet standards that define how data is
transmitted over coaxial cables in a Local Area Network (LAN)
 Thicknet
(10Base5)
 Thinnet
(10Base2)
 Feature 10Base5 10Base2
(ThickNet) (ThinNet)
Speed 10 Mbps 10 Mbps
Cable Type Thick Coaxial Cable Thin Coaxial
(ThickNet) Cable(ThinNet)
Maximum Cable 500 meters per 185 meters per
Length segment segment
Topology Bus topology Bus topology
Connectors Trans receivers using BNC (Bayonet Neill-Concelman)
AUI(Attachment Unit Interface) Connectors with T-
connectors and connectors
Vampire taps
Number of Devices Up to 100 devices per Up to 30 devices per
segment segment
Installation Difficult to install due Easier to install with
to thicker cable flexible cable
Usage Used in Early Ethernet Used in Early Ethernet
networks now networks now
Obsolete Obsolete

Bus topology network segment
10Base2 AUI and Vampire Tap

10Base2 Converter

BNC T type converter
2. Twisted pair Cable:
Twisted pair cable can be used for phone communication and cable
Ethernet networks.

Twisted pair cabling is a type of wiring in which two conductors of a single
circuit are twisted together for the purposes of cancelling out Electro
Magnetic Interference (EMI) from external sources.

Electromagnetic Interference:

EMI refers to the disturbance caused by external electromagnetic fields affecting the signal being
transmitted by over a communication medium. Such as Twisted pair cable in LAN.

Sources of EMI:

Electrical devices: Motors, power lines, other electrical equipment can generate electromagnetic
field.
Radio Frequency devices: Radio, Cell phones, wi-fi routers, and other wireless devices emit radio
waves.
Microwave Ovens

Effects of EMI on Twisted Pair Cable:
1. Signal degradation or signal loss
2. Data transmission errors (packet loss, weak network performance)
3. Reduce Bandwidth (Reduce Transmission speed)

There are two kinds of twisted pair cable:
 UTP (Unshielded Twisted Pair)
UTP is typically used in environments with minimal interference, such as home
networks or offices, due to its lower cost and easy installation.

 STP (Shielded Twisted Pair)
STP is more suited for industrial environments where electromagnetic interference is
a concern, though it comes with higher costs and requires grounding.
Feature UTP (Unshielded Twisted Pair) STP (Shielded Twisted Pair)
Definition Cable with twisted pairs of wires but Cable with twisted pairs of wires that
no additional shielding. are shielded with a foil or mesh to
prevent interference.
Shielding No shielding around the twisted Shielded with foil or braided mesh to
pairs. protect against electromagnetic
interference (EMI).
Cost Generally less expensive. More expensive due to the additional
shielding.
Weight & Flexibility Lighter and more flexible. Heavier and less flexible because of
shielding.
Interference Protection Offers less protection against EMI Offers higher protection against EMI
and radio frequency interference and RFI.
(RFI)
Performance in Noisy Environments Performs poorly in environments Performs better in high-interference
with high interference environments (e.g., near electrical
equipment).
Usage Common in home networks and Common in industrial settings or data
standard office setups. centres where interference is a
concern.
Bandwidth Generally lower bandwidth Supports higher bandwidth due to
reduced interference.
Distance Effective over shorter distances. Can be more effective over longer
distances due to reduced signal
degradation.
Installation Easier to install due to its flexibility More difficult to install because of
and lack of grounding. the need for grounding and less
flexibility.
3. Fiber Optic Cable:
Fiber optic cables use light to transmit data, providing high-speed and
long-distance communication. There are two main types of fiber optic
cables: Single-mode and Multimode each suited for different applications
and distances.

1. Single-mode Fiber (SMF):

 Designed for long-distance communication.
 Carries a single light path or mode.
 Typically used for high-bandwidth, long-distance applications (e.g.,
telecom, Internet backbone).
 Has a small core diameter (about 8-10 microns).
 Can transmit data up to 60-100 km without significant signal loss.
 Laser light is the typical light source.
 High Cost

2. Multimode Fiber (MMF):

 Designed for shorter-distance communication.
 Carries multiple light paths or modes.
 Used for local area networks (LANs) or within data centers.
 Has a larger core diameter (about 50-62.5 microns).
 Maximum effective distance is usually around up to 2 kms.
 LED or laser is used as the light source.
 Low Cost
 Comparing Transmission Media

Type Fiber Optic Twisted Pair Coaxial Cabling
Cabling Cabling
Type Bandwidth < 10 GHz < 100 MHz < 1GHz
Typical Use Data Structured Wiring Cable TV
Communication in LAN
Broadcast
Benefits -Most Bandwidth. Inexpensive, Inexpensive,
Fastest relatively easy to relatively easy to
-Transmission install and install and
speed terminate terminate can
-Immune to EMI span longer
distance than UTP
Limitations Most Expensive Max. distance of Can be affected by
100 mtrs. EMI
Can be affected by
EMI

QUIZ:
1. What are the transmission media in wired LAN?
a.
b.
c.

2. Two types of coaxial cables are …………………………. And
………………………………………
3. Optical fibers uses …………………. As the medium of data
transmission.
4. Which of the following is used in cable TV connection?
a. Satellite
b. Coaxial Cable
c. Modem
d. Fiber Optic
 5. …………… supports data rate up to 100 Mbps Gigabit
Ethernet
6. What are the types of cables in twisted pair?

STRUCTURED CABLING
Objectives:
 Understand and explain about twisted pair cabling and tools
used in crimping.
 Perform Step by step Crimping

RJ45 Connectors: RJ45 (Registered Jack) is the most common
connector used for Ethernet networking.
The RJ45 is a standardized networking interface which defines the
RJ45 connector as an 8-pin/8-position plug or jack.

RJ45 connectors can be wired following the two standards
mentioned below:

EIA/TIA 568A EIA/TIA 568A

White Green White Orange

Green Orange

White Orange White Green

Blue Blue

White Blue White Blue

Orange Green

White Brown White Brown

Brown Brown
EIA/TIA-568 is a set of standards developed by the Telecommunications Industry Association
(TIA) and Electronic Industries Alliance (EIA) for structured cabling systems, specifically
related to wiring and telecommunications cabling in commercial buildings.

Straight-Through Wiring / Straight Cable
 Connecting different devices like:
 Connecting router to hub/switch
 Connecting computer to switch
 Connecting a LAN port to a switch or computer
 Same color code on both ends (568 A or 568 B)
Crossover Wiring / Cross Cable
 Connecting same type devices:
 Connecting a computer to router
 Connecting a router to router
 Connecting a computer to computer
 Connecting a switch to switch
 One end follows 568 A and other end follows 568 B