CIS 321 Data Communications & Networking
Download
Report
Transcript CIS 321 Data Communications & Networking
4123702
Data Communications System
By
Ajarn Preecha Pangsuban
Chapter 7 – Transmission Media
Relation to Internet Model
Actually located below the physical layer
Directly controlled by the physical layer
4123702 Data Communications System @YRU
3
Introduction
Data must be converted into electromagnetic
signals to be transmitted from device to device
Signals can travel through a vacuum, air, or other
media
May be in the form of power, voice, radio waves,
infrared light, and X, gamma, and cosmic rays
Each of these forms constitutes a portion of the
electromagnetic spectrum
4123702 Data Communications System @YRU
4
Electromagnetic Spectrum
4123702 Data Communications System @YRU
5
Categories of Media
Guided Media
Twisted pair, coaxial, and fiber-optic
Unguided Media
Radio waves, infrared light, visible light, and X,
gamma, and cosmic rays
Sent by microwave, satellite, and cellular
transmission
4123702 Data Communications System @YRU
6
Guided Media
Twisted-pair and coaxial use copper conductors
to accept and transport signals in form of
electrical current
Optical fiber is glass or plastic cable that accepts
and transports signals in form of light
4123702 Data Communications System @YRU
7
Twisted-Pair Cable
Two conductors surrounded by insulating material
One wire used to carry signals; other used as a
ground reference
Twisting wires reduces the effect of noise
interference or crosstalk since both wires will likely be
equally affected
More twists = better quality
4123702 Data Communications System @YRU
8
Effect of noise on parallel line
16
Effect of noise on parallel line
4123702 Data Communications System @YRU
9
Effect of noise on twisted-pair lines
4123702 Data Communications System @YRU
10
Unshielded Twisted Pair (UTP)
Most common type; suitable for both voice and
data transmission
Frequency range is from 100 Hz to 5 MHz
Categories are determined by cable quality
Cat 3 commonly used for telephone systems (up to 10
Mbps)
Cat 5e usually used for data networks (up to 100
Mbps)
Performance is measured by attenuation versus
frequency and distance
4123702 Data Communications System @YRU
11
UTP example
4123702 Data Communications System @YRU
12
UTP (cont)
Adv: cheaper, flexible, easy to install
UTP connectors attach to wire; most commonly
used is RJ45, which have 8 conductors, one for
each of four twisted pairs
4123702 Data Communications System @YRU
13
Shielded Twisted Pair (STP)
By IBM
A metal foil or braided-mesh covering encases
each pair of insulated conductors to prevent
electromagnetic noise called crosstalk
Uses same connectors
More expensive but less susceptible to noise
4123702 Data Communications System @YRU
14
STP example
4123702 Data Communications System @YRU
15
Categories of unshielded twisted-pair cables
Category
Max Speed
Digital/Analog
Use
1
< 100 kbps
Analog
Telephone
2
2 Mbps
Analog/digital
T-1 lines
3
10 Mbps
Digital
LANs
4
16 Mbps
Digital
LANs
5e
1 Gbps
Digital
LANs
6
1 Gbps
Digital
LANs
7 (Draft)
10 Gbps
Digital
LANs
4123702 Data Communications System @YRU
16
Color code for 4 cable pairs
Pair #
1
2
3
4
Primary color Secondary color (stripe)
Blue
White
Orange
White
Green
Brown
4123702 Data Communications System @YRU
White
White
17
UTP connector
4123702 Data Communications System @YRU
18
The T568A and T568B wiring patterns
T568A Jack
1
2
3
4
5
6
7
8
W/G
G
W/O
B
W/B
O
W/Br
Br
Pair 3
Pair 1 Pair 2
Pair 4
8-pin modular jack
(front view)
4123702 Data Communications System @YRU
T568B Jack
1
2
3
4
5
6
7
8
W/O
O
W/G
B
W/B
G
W/Br
Br
Pair2
Pair 1 Pair 3
Pair 4
8-pin modular jack
(front view)
19
UTP performance
4123702 Data Communications System @YRU
20
Coaxial Cable
Has a central core conductor enclosed in an insulating
sheath, encased in an outer conductor of metal foil
Frequency range is between 100 KHz and 500 MHz
RG numbers denote physical specs such as
wire gauge
thickness and type of insulator
construction of shield
size/type of outer casing
4123702 Data Communications System @YRU
21
RG numbers
RG-8, RG-9, and RG-11 used in thick
Ethernet (50)
RG-58 used in thin Ethernet (50)
RG-59 used for TV (75)
4123702 Data Communications System @YRU
22
Coaxial Cable example
4123702 Data Communications System @YRU
23
Coaxial Cable Connectors
Most common is barrel connector (BNC)
T-connectors are used to branch off to secondary
cables
Terminators are required for bus topologies to
prevent echoing of signals
4123702 Data Communications System @YRU
24
Coaxial Performance
Higher bandwidth than twisted-pair
However, attenuation is higher and requires
frequent use of repeaters
4123702 Data Communications System @YRU
25
Coaxial Applications
Analog telephone networks ,
single coaxial network could carry 10,000 voice
signals
Digital telephone networks ,
single coaxial network could carry digital data up to
600 Mbps
Cable TV networks
Traditional Ethernet LANs
4123702 Data Communications System @YRU
26
Coaxial cable performance
4123702 Data Communications System @YRU
27
Fiber-Optic Cable
Made of glass or plastic;
signals are transmitted as light pulses from an LED
or laser
Speed depends on density of medium it is
traveling through;
fastest when in a vacuum, 186,000 miles/second
4123702 Data Communications System @YRU
28
Refraction
4123702 Data Communications System @YRU
29
Critical Angle
4123702 Data Communications System @YRU
30
Reflection
4123702 Data Communications System @YRU
31
Fiber Construction (1)
4123702 Data Communications System @YRU
32
Fiber Construction (2)
4123702 Data Communications System @YRU
33
Propagation Modes
Method for transmitting optical signals:
Multimode
Multimode step-index fiber
Multimode graded-index fiber
Single Mode
4123702 Data Communications System @YRU
34
Propagation Modes (cont)
4123702 Data Communications System @YRU
35
Multimode
Multiple beams from light source move through
core at different paths
Multimode step-index fiber
Index refers to the index of refraction
Density remains constant from center to edges
Light moves in a straight line until it reaches the
cladding
Some beams penetrate the cladding and are lost,
while others are reflected down the channel to the
destination
4123702 Data Communications System @YRU
36
Multimode (cont)
As a result, beams reach the destination at different
times and the signal may not be the same as that
which was transmitted
Multimode graded-index fiber
May be used to decrease this problem and to allow
for more precise transmissions
Graded-index refers to varying densities of the fiber;
highest at center and decreases at edge
4123702 Data Communications System @YRU
37
Multimode (cont)
Since the core density decreases with
distance from the center, the light beams
refract into a curve
Eliminates problem with some of the signals
penetrating the cladding and being lost
4123702 Data Communications System @YRU
38
Single Mode
Only one beam from a light source is transmitted
using a smaller range of angles
Smaller diameter
Makes propagation of beams almost horizontal;
delays are negligible
All beams arrive together and can be recombined
without signal distortion
4123702 Data Communications System @YRU
39
Light Sources
Light source is light-emitting diode (LED) or a
laser
LEDs are cheaper but not as precise (unfocused);
limited to short-distance use
Lasers can have a narrow range, better control over
angle
Receiving device needs a photosensitive cell
(photodiode) capable of receiving the signal
4123702 Data Communications System @YRU
40
Fiber types
Size
Core
Cladding
Mode
50/125
50
125
Multimode, graded-index
62.5/125
62.5
125
Multimode, graded-index
100/125
100
125
Multimode, graded-index
7
125
Single-mode
7/125
4123702 Data Communications System @YRU
41
Fiber Sizes
Single mode
7/125
Multimode
50/125
4123702 Data Communications System @YRU
Multimode
62.5/125
Multimode
100/125
42
Packing methods for fiber cable
4123702 Data Communications System @YRU
43
Fiber-Optic cable connectors (1)
Subscriber Channel (SC) Connection
It uses Push/pull locking system mechanism
Used in cable TV
Straight-tip (ST) Connection
It uses a bayonet locking system
Used for connecting cable to networking devices
More reliable than SC
MT-RJ
New connector with the same as RJ45
4123702 Data Communications System @YRU
44
Fiber-Optic cable connectors (2)
4123702 Data Communications System @YRU
45
Optical fiber performance
4123702 Data Communications System @YRU
46
Applications of Fiber Optics
Backbone networks due to wide bandwidth and
cost effectiveness
Up to 1600 Gbps with WDM (Synchronous
Optical Network : SONET)
Cable TV
LANS
100Base-FX (Fast Ethernet)
1000Base-X
4123702 Data Communications System @YRU
47
Advantages of Fiber Optics
Higher bandwidth than twisted-pair and coaxial
cable; not limited by medium, but by equipment
used to generate and receive signals
Noise resistance
Less signal attenuation
Immunity to EMI
More resistant to corrosive materials
Lightweight
Greater security (More immune to tapping)
4123702 Data Communications System @YRU
48
Disadvantages of Fiber Optics
Installation/maintenance
Relatively new technology
need expertise
Unidirectional, bidirectional communication two
fibers are needed
Cost
Cable and interface are relatively more expensive
Bandwidth is not high, often the use of fiber cannot
justified
4123702 Data Communications System @YRU
49
Unguided Media: Wireless
Wireless communication; transporting
electromagnetic waves without a physical conductor
4123702 Data Communications System @YRU
50
Wireless Propagation Methods
Ground – radio waves travel through lowest
portion of atmosphere, hugging the Earth
Sky – higher-frequency radio waves radiate
upward into ionosphere and then reflect back to
Earth
Line-of-sight – high-frequency signals transmitted
in straight lines directly from antenna to antenna
4123702 Data Communications System @YRU
51
Propagation Methods
4123702 Data Communications System @YRU
52
Bands
Band
VLF
Range
Propagation
Application
3–30 KHz
Ground
Long-range radio navigation
LF
30–300 KHz
Ground
Radio beacons and
navigational locators
MF
300 KHz–3 MHz
Sky
AM radio
HF
3–30 MHz
Sky
Citizens band (CB),
ship/aircraft communication
VHF
30–300 MHz
Sky and
line-of-sight
VHF TV, FM radio
UHF
300 MHz–3 GHz
Line-of-sight
UHF TV, cellular phones,
paging, satellite
SHF
3–30 GHz
Line-of-sight
Satellite communication
EHF
30–300 GHz
Line-of-sight
Long-range radio navigation
4123702 Data Communications System @YRU
53
Wireless Transmission Waves
Radio Waves
Microwave
Infrared
4123702 Data Communications System @YRU
54
Radio Waves
Frequency ranges: 3 KHz to 1 GHz
Omnidirectional
Susceptible to interference by other antennas
using same frequency or band
Ideal for long-distance broadcasting
May penetrate walls
Apps: AM and FM radio, TV, maritime radio,
cordless phones, paging
4123702 Data Communications System @YRU
55
Omnidirectional antennas
4123702 Data Communications System @YRU
56
Microwaves
Frequencies between 1 and 300 GHz
Unidirectional
Narrow focus requires sending and receiving
antennas to be aligned
Issues:
Line-of-sight (curvature of the Earth; obstacles)
Cannot penetrate walls
4123702 Data Communications System @YRU
57
Terrestrial Microwave
4123702 Data Communications System @YRU
58
Parabolic Dish Antenna
Incoming signals - Signal
bounces off of dish and is
directed to focus
Outgoing signals –
transmission is broadcast
through horn aimed at
dish and are deflected
outward
4123702 Data Communications System @YRU
59
Horn Antenna
Outgoing transmissions
broadcast through a stem
and deflected outward
Received transmissions
collected by a scooped
part of the horn and
deflected downward into
the stem
4123702 Data Communications System @YRU
60
Microwave Applications
Unicasting – one-to-one communication between
sender and receiver
Cellular phones
Satellite networks
Wireless LANs
4123702 Data Communications System @YRU
61
Satellite Microwave
Similar to terrestrial microwave except the signal
travels from a ground station on earth to a satellite
and back to another ground station.
Satellite receives on one frequency, amplifies or
repeats signal and transmits on another frequency
Satellite is relay station
Television
Long distance telephone
Private business networks
4123702 Data Communications System @YRU
62
Satellite as a repeater
4123702 Data Communications System @YRU
63
Satellite frequency band
Band
Downlink
(GHz)
Uplink
(GHz)
C
3.7 to 4.2 GHz
Ku
11.7 to 12.2 GHz
14 to 14.5 GHz
500
Ka
17.7 to 21 GHz
27.5 to 31 GHz
3500
4123702 Data Communications System @YRU
5.925 to 6.425 GHz
Bandwidth,
(MHz)
500
64
Infrared
Frequencies between 300 GHz and 400 THz
Short-range communication
High frequencies cannot penetrate walls
Requires line-of-sight propagation
Adv: prevents interference between systems in
adjacent rooms
Disadv: cannot use for long-range communication
or outside a building due to sun’s rays
4123702 Data Communications System @YRU
65
Infrared Applications
Wide bandwidth available for data transmission
Communication between keyboards, mice, PCs,
and printers
4123702 Data Communications System @YRU
66
Bluetooth
Bluetooth is a Radio Frequency specification for
short-range, point-to-multipoint voice and data
transfer.
Bluetooth can transmit through solid, non-metal
objects.
Its typical link range is from 10 cm to 10 m, but
can be extended to 100 m by increasing the
power.
4123702 Data Communications System @YRU
67
Bluetooth
Bluetooth will enable users to connect to a wide
range of computing and telecommunication
devices without the need of connecting cables.
Typical uses include phones and pagers,
modems, LAN access devices, headsets,
notebooks, desktop computers, and PDAs.
4123702 Data Communications System @YRU
68
WAP (Wireless Application Protocol)
WAP allows wireless devices such as mobile
telephones, PDAs, pagers, and two-way radios to
access the Internet.
WAP is designed to work with small screens and
with limited interactive controls.
WAP incorporates Wireless Markup Language
(WML) which is used to specify the format and
presentation of text on the screen.
4123702 Data Communications System @YRU
69
WAP
WAP may be used for applications such as:
travel directions
sports scores
e-mail
online address books
traffic alerts
banking
news
4123702 Data Communications System @YRU
70
4123702 Data Communications System @YRU
71
Broadband Wireless Systems
Delivers Internet services into homes and
businesses.
Designed to bypass the local loop telephone line.
Transmits voice, data and video over high
frequency radio signals.
4123702 Data Communications System @YRU
72
4123702 Data Communications System @YRU
73
Credits
All figures obtained from publisher-provided
instructor downloads
Data Communications and Networking, 3rd edition by
Behrouz A. Forouzan. McGraw Hill Publishing, 2004
4123702 Data Communications System @YRU
74