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Telecommunications and Networks

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Title: Telecommunications and Networks

1
Chapter 6

Telecommunications and Networks

2
Agenda - I

What Is Telecommunications?
What Is Data Communications?
What are the Electromagnetic Waves?
What is Electromagnetic Signal Frequency?
What is a Communication Line Bandwidth?
Digital Versus Analog Data
Components of Communication Networks
Contacted and Radiated Media
Twisted Pair Wire
Coaxial Cable
Fiber-Optic Cable
Broadcast Radio
Microwave
Satellite Microwave

3
Agenda - II

Cellular Radio
Infrared Transmission
Selection of Media
Transmission Modes
Telecommunications Devices
Telecommunications Carriers and Services
Networks LANs and WANS
Terminal-to-Host, File Server, and Client/Server
Systems
Network Topologies
Star Topology
Bus Topology
Ring Topology
Coordinating Data Communications
Popular Communication Protocols
Home and Small Business Networks

4
What Is Telecommunications?

Telecommunications is the electronic
transmission of signals for communications
between a sender and a receiver. The methods
include telephone, radio, and television, etc.

5
What Is Data Communications?

Data communications is a specialized subset of
telecommunications that refers to electronic
collecting, processing, and distributing of data
between computer system devices. This definition
excludes the transmission of data to local
peripherals such as disk, tape, and printers.
Data communications is sometimes called
networking because it involves the transmission
of data over a network.

6
What are the Electromagnetic Waves?

The motion of electrically charged particles
produces electromagnetic waves. These waves are
also called "electromagnetic radiation" because
they radiate from the electrically charged
particles.
Radio waves, microwaves, visible light, and x
rays are all examples of electromagnetic waves
that differ from each other in wave length.
Electromagnetic waves need no material medium for
transmission. Light and radio waves can travel
through interplanetary and interstellar space
from the sun and stars to the earth. Regardless
of their frequency and wavelength,
electromagnetic waves travel at a speed of
299,792 km (186,282 mi) per second in a vacuum.

7
What is Electromagnetic Signal Frequency?

Frequency refers to the number of times a current
(electromagnetic wave) passes through a complete
cycle. The measure of frequency is a Hertz (Hz),
which represents one cycle per second.
Frequencies are represented from a number from 0
Hertz to 300 GHz (called the electromagnetic
spectrum).
KKilo1,000, MMega1,000,000,
GGiga1,000,000,000

8
What is a Communication Line Bandwidth?

Communication line bandwidth is the difference
between the minimum and maximum range of
frequencies allowed by the communication line.
Bandwidth higher frequency - lower frequency.
For example A wire transmits in a frequency
range from 100 Hz to 2,500 Hz. Its bandwidth is
2,400 Hz.
Bandwidth is important because it indicates how
much data can be transmitted over a specific
channel. A wider bandwidth allows more data to be
transmitted at a given time.

9
Digital Versus Analog Data

Analog signals are represented by rising and
falling voltages (waves) such as light, voice,
video signals that are in a continuous form.
Digital signals are represented pulse of fixed
voltages such as binary signals (o or 1) that are
in a discrete form and can be used by computer.

10
Components of Communication Networks

In order for communication to occur, there must
be a source, a medium, a receiver and a message.
The source (sender) is the device that sends the
message (transmitter) and is any device that can
be connected to the network like a PC or a
telephone.
The medium connects the source with the receiver
and can be a copper cable, a fiber-optic cable,
airwaves or another physical path.
The receiver is the device that accepts the
message.
The message can be a file, a request, a response,
a status message, a control message or
correspondence. The message must be
understandable.

11
Contacted and Radiated Media

A Communication network cannot exist without a
medium to connect the source and receiver. If
this medium can be seen physically, it is
considered a contacted medium.
Radiated media, or wireless media, do not use
physical wires to transmit data. With radiated
media, the signal is radiated through the air,
water and vacuum of space.

12
Twisted Pair Wire

Twisted pair wire consists of two wires twisted
together a specific number of times to create a
magnetic field that reduces the amount of
interference in the line.
In shielded twisted pair (STP), the twisted core
is placed into a cladding shield, which is
wrapped with wires to absorb any interference.
Used when you have to pack many wires together in
a small space or in an environment with a lot of
electrical equipment. STP wires are reliable in
high-speed areas.
In unshielded twisted pair (UTP), the twisted
core is just covered with the plastic material
without the use of cladding material. Often used
in telephone systems. UTP lines are grouped into
categories based on their quality and use.

13
Coaxial Cable

Coaxial cable is composed of a single copper wire
(the inner conductor), surrounded by a insulating
cladding material called a shell. The shell is
then surrounded by a second conductor (usually a
braided copper shield), which gives the cable the
ability to transmit much more data than a twisted
pair wire. Finally, the entire cable is enclosed
in a rubber outer cladding called the jacket.
Coaxial cables allow the use of broadband and
baseband transmission. In broadband transmission,
a single cable is divided into many channels,
each of which can carry a different transmission.
The carrier wave is divided into bandwidths and
separated by guardbands to prevent interference
between the signals. In baseband transmission,
only a single signal is transmitted over the
cable.
A single coaxial cable can carry 1,000
simultaneous voice and data transmissions.

14
Fiber-Optic Cable

Fiber-optic cable uses light to transmit data
signals. The core of the fiber-optic cable is
composed of one or more thin tubes of glass or
plastic. Each tube is called the optical fiber
and is as thin as the human hair. A
light-emitting diode (LED) or a laser is used to
send light through the fibers.

15
Broadcast Radio

Broadcast radio involves sending signals through
the air between transmitters, at frequencies from
30 to 300 MHz.
Amplitude modulation (AM) radio uses a low
frequency and allows it to broadcast its signal
far (530-1605 KHz).
Frequency modulation (FM) radio uses a higher
frequency and the signal travels shorter
distances (87.6-108 MHz).
Short wave radios transmit signals over long
distances and utilize specific restricted
frequency ranges.
Television stations use the ultra-high frequency
(UHF) channels and very-high frequency (VHF)
channels to transmit TV programs in the ranges
400-900 MHz and 50-225 MHz respectively.

16
Microwave

Microwave transmission uses very-high frequency
signals (3,000 MHz to 30 GHz) to transmit signals
between stations. The high frequency permits
large amounts of data to be transmitted. Unlike
broadcast radio signals, which are
omnidirectional, microwave transmission is
focused and unidirectional. That means means that
microwave stations use line-of-sight transmission
and signals travel in straight line. The two
types of microwave transmission are terrestrial
and satellite
Terrestrial microwave transmissions are sent
between two microwave stations on the earth
(earth station). It is the most common form of
long-distance communication.
Satellite microwave transmissions involve sending
microwave transmissions between two or more
earth-based microwave stations and a satellite.

17
Satellite Microwave

Most communications satellites are placed into
orbit 22,300 miles above the earth's surface. The
earth's gravity keeps the satellite in orbit at
the same rate as the earth (geosynchronous
orbit). Such satellites are called geosynchronous
orbiting satellites (GEOS).
Low earth orbiting satellites (LEOS) orbit the
earth at a height of 325-1,000 miles and they
orbit around the poles (not in a fixed position
relative to the earth).
Medium earth orbiting satellites (MEOS) are
similar to LEOS but are positioned at
6,000-10,000 miles above the earth.
Because microwaves use line-of-sight, the
satellite signal can only reach a part of the
earth. This area is called a footprint.

18
Cellular Radio

Cellular telephones actually are radio devices
that use cellular radio (form of broadcast radio
with restrictions on how far the signal is
transmitted) to transmit voice and data. The
broadcast area of a cellular radio system is
divided into cells. Here is how it works
1. Using a cellular phone, the caller dials a
number. The signal is sent from the cell phone's
antenna to the cellular antenna located in cell
1.
2. The signal is sent to the regional cellular
phone switching office.
3. The signal is switched to the local Telephone
Company switching station.
4. The signal is now in the regular phone system
and the call is switched to the number dialed.

19
Infrared Transmission

Infrareds (IR) transmission involves sending
light signals at a frequency between visible
light and radio waves. Commonly used in TV remote
controls, now is used to provide LAN connections.
It is a line-of-sight transmission and has a
maximum coverage of 30 to 80 feet.
Increasingly, computers and devices such as
printers come with IrDA ports, which enable the
transfer of data without the use of cables.

20
Selection of Media

In developing any network, the designer must take
into account
The cost of the medium
The speed at which it can transmit
The error rate that should be expected using the
medium
The security of the data transmitted over the
medium
The transmission distance
The availability of the medium
The environmental constraints

21
Transmission Modes

Signals can be transmitted though
telecommunications media in a number of different
ways
In simplex transmission, data can flow only in
one direction
In half-duplex transmission, data can flow in
both directions but it can only flow in one
direction at any point in time
In full-duplex transmission, data can flow in
both directions at the same time

22
Telecommunications Devices

Telecommunication devices are hardware devices
that allow electronic communication to occur.
Modems translate data from digital to analog and
vice versa
Fax devices allow the transmission of text,
graphs and other digital files via telephone
lines
Multiplexers allow several signals to be sent
over one channel
Communication processors are computers devoted to
communications management
Bridges, Routers, Gateways, and Switches

23
Telecommunications Carriers and Services

Several companies provide telecommunications
media, devices and services called
telecommunications carriers
Switched lines are standard telephone lines
provided by telephone companies
Dedicated lines provide a constant connection
between two points
Private Branch Exchange (PBX) is a communications
system that can manage both voice and data
transfer within a building and an outside line
Wide-area Telecommunications Service (WATS) is a
billing method for heavy users of voiceband media
(the 1-800 lines)
Integrated Serviced Digital Network (ISDN) is a
technology that uses existing common-carrier
lines to simultaneously transmit voice, video and
image data in digital form
Digital Subscriber Line (DSL) uses existing phone
wires to provide transmission speeds exceeding
500 Kbps.
T1 carrier increases the number of voice calls
through the existing cables

24
Networks LANs and WANS

A Computer Network is a collection of computers
and peripherals linked together so that they can
share applications, data, and resources such as
printers, modems, and CD-ROMs.
A Local Area Network (LAN) enables computer users
to transfer files, manipulate data, and share
resources within the same office or building.
A Wide Area Network (WAN) ties together large
geographic regions using microwave, satellite, or
telephone lines.

25
Home and Small Business Networks
26
Terminal-to-Host, File Server, and Client/Server
Systems

In a Terminal-to-Host network, the application
and database reside on one host computer and the
user interacts with the application and data
using a dump terminal.
In the File and Client/Server model, certain
machines and devices on the network are dedicated
to providing services to the network. (cost,
performance, security, privacy, virus,
multi-vendor)
A Peer-to-peer network allows personal computers
to be linked together to share their resources.
In such an arrangement, a single peripheral as a
printer connected to a workstation can be used by
other network users. Users can also share
programs and data.

27
Network Topologies

The Topology of the Network is the networks
physical layout. This is what defines the path
that information must take to move from one place
to another on the network. The 3 basic topologies
are Star, Bus, and Ring

28
Star Topology

In a Star topology, all of the workstations and
servers are connected to a centrally located
device called a hub. The hub controls and directs
messages.

29
Bus Topology

In a Bus or linear network topology, all
workstations and servers are connected to a
single cable called the bus. At the ends of the
network circuit, a device called terminator is
installed to complete the network circuit.

30
Ring Topology

In a Ring topology, all workstations and servers
are chained together in much the same way as they
are in a bus network. The exception is that the
cables at the ends of the network are connected
together rather than terminated.

31
Coordinating Data Communications

Polling is a procedure in which the main computer
checks each device one at a time to see if there
are any messages waiting to be communicated to
other network devices.
Token passing is a technique in which an
electronic "token" is passed from one device to
another. If a device has the token and a message,
the message can be transmitted.
Contention is a procedure in which a device
checks to see if a message is currently being
transmitted. If there are no messages being
transmitted, the device starts the
message-sending sequence.

32
Popular Communications Protocols

Ethernet is the most widely used networking
protocol in use today, mainly because of the low
cost of implementing the network and the lack of
need for centralized control. Ethernet can be
used to link many different types of computers
together. Ethernet can run on coax, twisted pair,
and fiber optic cabling. All cabling schemes
support 10 Mbps speeds but the latest (10baseF)
can also support 100 Mbps.
The Transmission Control Protocol/Internet
Protocol (TCP/IP) was developed in 1973 for use
in the APRANet network. Over time, TCP/IP has
developed to be a suite network protocols that
will support remote log-in capabilities, file
transfer, e-mail, and routing. It is most
commonly associated with the Internet since in
1983 TCP/IP was adopted as the Internet standard.
Bluetooth is a communications standard using
short-range radio wave that defined by Ericsson
for wireless communications